DIGIMAT AUTONOMOUS LEARNING PLATFORM

Biotechnology (2,985 Video Lectures)

Link NPTEL Course Name NPTEL Lecture Title
Link Biomathematics Lecture 1 - Introduction
Link Biomathematics Lecture 2 - Graphs and functions - I
Link Biomathematics Lecture 3 - Graphs and functions - II
Link Biomathematics Lecture 4 - Functions and derivatives
Link Biomathematics Lecture 5 - Calculation of derivatives
Link Biomathematics Lecture 6 - Differentiation and its application in Biology - I
Link Biomathematics Lecture 7 - Differentiation and its application in Biology - II
Link Biomathematics Lecture 8 - Differentiation and its application in Biology - III
Link Biomathematics Lecture 9 - Differentiation and its application in Biology - IV
Link Biomathematics Lecture 10 - Integration - I
Link Biomathematics Lecture 11 - Integration - II
Link Biomathematics Lecture 12 - Differential equations - I
Link Biomathematics Lecture 13 - Differential equations - II
Link Biomathematics Lecture 14 - Vectors - I
Link Biomathematics Lecture 15 - Vectors - II
Link Biomathematics Lecture 16 - Vectors - III
Link Biomathematics Lecture 17 - Nernst equation
Link Biomathematics Lecture 18 - Diffusion - I : Diffusion equation
Link Biomathematics Lecture 19 - Diffusion - II : Mean-square displacement
Link Biomathematics Lecture 20 - Diffusion - III : Einstein’s relation
Link Biomathematics Lecture 21 - Statistics : Mean and variance
Link Biomathematics Lecture 22 - Statistics : Distribution function
Link Biomathematics Lecture 23 - Understanding Normal distribution
Link Biomathematics Lecture 24 - Fitting a function to experimental data
Link Biomathematics Lecture 25 - Size of a flexible protein: Simplest model
Link Biomathematics Lecture 26 - Uniform and Poisson distributions; Knudson’s analysis
Link Biomathematics Lecture 27 - Fourier Series - I
Link Biomathematics Lecture 28 - Fourier Series - II
Link Biomathematics Lecture 29 - Fourier transform
Link Biomathematics Lecture 30 - Master equation: Polymerization dynamics, Molecular motor motion
Link Biomathematics Lecture 31 - Evolution: Simplest model
Link Biomathematics Lecture 32 - Tutorial - I
Link Biomathematics Lecture 33 - Tutorial - II
Link Biomathematics Lecture 34 - Temperature, Energy and Entropy
Link Biomathematics Lecture 35 - Partition function, Free energy
Link Biomathematics Lecture 36 - Bending fluctuations of DNA and spring-like proteins
Link Biomathematics Lecture 37 - Force-extension and looping of DNA
Link Biomathematics Lecture 38 - Thermodynamics of protein organization along DNA
Link Biomathematics Lecture 39 - Learning mathematics with the help of a computer
Link Proteomics: Principles and Techniques Lecture 1
Link Proteomics: Principles and Techniques Lecture 2
Link Proteomics: Principles and Techniques Lecture 3
Link Proteomics: Principles and Techniques Lecture 4
Link Proteomics: Principles and Techniques Lecture 5
Link Proteomics: Principles and Techniques Lecture 6
Link Proteomics: Principles and Techniques Lecture 7
Link Proteomics: Principles and Techniques Lecture 8
Link Proteomics: Principles and Techniques Lecture 9
Link Proteomics: Principles and Techniques Lecture 10
Link Proteomics: Principles and Techniques Lecture 11
Link Proteomics: Principles and Techniques Lecture 12
Link Proteomics: Principles and Techniques Lecture 13
Link Proteomics: Principles and Techniques Lecture 14
Link Proteomics: Principles and Techniques Lecture 15
Link Proteomics: Principles and Techniques Lecture 16
Link Proteomics: Principles and Techniques Lecture 17
Link Proteomics: Principles and Techniques Lecture 18
Link Proteomics: Principles and Techniques Lecture 19
Link Proteomics: Principles and Techniques Lecture 20
Link Proteomics: Principles and Techniques Lecture 21
Link Proteomics: Principles and Techniques Lecture 22
Link Proteomics: Principles and Techniques Lecture 23
Link Proteomics: Principles and Techniques Lecture 24
Link Proteomics: Principles and Techniques Lecture 25
Link Proteomics: Principles and Techniques Lecture 26
Link Proteomics: Principles and Techniques Lecture 27
Link Proteomics: Principles and Techniques Lecture 28
Link Proteomics: Principles and Techniques Lecture 29
Link Proteomics: Principles and Techniques Lecture 30
Link Proteomics: Principles and Techniques Lecture 31
Link Proteomics: Principles and Techniques Lecture 32
Link Proteomics: Principles and Techniques Lecture 33
Link Proteomics: Principles and Techniques Lecture 34
Link Proteomics: Principles and Techniques Lecture 35
Link Proteomics: Principles and Techniques Lecture 36
Link Proteomics: Principles and Techniques Lecture 37
Link Proteomics: Principles and Techniques Lecture 38
Link Proteomics: Principles and Techniques Lecture 39
Link Proteomics: Principles and Techniques Lecture 40
Link NOC:Proteins and Gel-Based Proteomics Lecture 0 - Proteins and Gel-Based Proteomics; Course Introduction
Link NOC:Proteins and Gel-Based Proteomics Lecture 1 - Introduction to amino acids
Link NOC:Proteins and Gel-Based Proteomics Lecture 2 - Introduction to proteins
Link NOC:Proteins and Gel-Based Proteomics Lecture 3 - Protein folding & misfolding
Link NOC:Proteins and Gel-Based Proteomics Lecture 4 - Protein purification techniques
Link NOC:Proteins and Gel-Based Proteomics Lecture 5 - Introduction to proteomics
Link NOC:Proteins and Gel-Based Proteomics Lecture 6 - Systems biology and proteomics
Link NOC:Proteins and Gel-Based Proteomics Lecture 7 - Sample preparation and pre-analytical factors
Link NOC:Proteins and Gel-Based Proteomics Lecture 8 - Sample preparation: Pre-analytical factors (Continued...)
Link NOC:Proteins and Gel-Based Proteomics Lecture 9 - Sample preparation: Protein extraction and quantification
Link NOC:Proteins and Gel-Based Proteomics Lecture 10 - One-dimensional electrophoresis
Link NOC:Proteins and Gel-Based Proteomics Lecture 11 - 2-DE: Rehydration, IEF & Equilibration
Link NOC:Proteins and Gel-Based Proteomics Lecture 12 - 2-DE: Second dimension, staining & destaining
Link NOC:Proteins and Gel-Based Proteomics Lecture 13 - 2-DE: Gel analysis
Link NOC:Proteins and Gel-Based Proteomics Lecture 14 - 2-DE: Applications
Link NOC:Proteins and Gel-Based Proteomics Lecture 15 - 2-DE: Applications (Continued...) & Challenges
Link NOC:Proteins and Gel-Based Proteomics Lecture 16 - 2D-DIGE: Basics
Link NOC:Proteins and Gel-Based Proteomics Lecture 17 - 2D-DIGE: Data analysis
Link NOC:Proteins and Gel-Based Proteomics Lecture 18 - 2D-DIGE: Applications
Link NOC:Proteins and Gel-Based Proteomics Lecture 19 - Protein identification using MALDI-TOF/TOF
Link NOC:Proteins and Gel-Based Proteomics Lecture 20 - Proteomics experiment data analysis & challenges
Link NOC:Mass spectrometry based proteomics Lecture 0 - Introductory lecture
Link NOC:Mass spectrometry based proteomics Lecture 1 - Introduction to proteomics
Link NOC:Mass spectrometry based proteomics Lecture 2 - Proteomics and sample preparation
Link NOC:Mass spectrometry based proteomics Lecture 3 - Bacterial protein extraction
Link NOC:Mass spectrometry based proteomics Lecture 4 - In-gel digestion
Link NOC:Mass spectrometry based proteomics Lecture 5 - Fundamentals of mass spectrometry
Link NOC:Mass spectrometry based proteomics Lecture 6 - Chromatography technologies
Link NOC:Mass spectrometry based proteomics Lecture 7 - Liquid chromatography
Link NOC:Mass spectrometry based proteomics Lecture 8 - Mass spectrometry: Ionization sources
Link NOC:Mass spectrometry based proteomics Lecture 9 - Mass spectrometry: Mass analyzers
Link NOC:Mass spectrometry based proteomics Lecture 10 - MALDI sample preparation and analysis
Link NOC:Mass spectrometry based proteomics Lecture 11 - Introduction to quantitative proteomics
Link NOC:Mass spectrometry based proteomics Lecture 12 - Hybrid mass spectrometry configurations
Link NOC:Mass spectrometry based proteomics Lecture 13 - SILAC: In Vivo labeling
Link NOC:Mass spectrometry based proteomics Lecture 14 - iTRAQ: In Vitro labeling
Link NOC:Mass spectrometry based proteomics Lecture 15 - TMT: In vitro labeling
Link NOC:Mass spectrometry based proteomics Lecture 16 - Quantitative proteomics data analysis
Link NOC:Mass spectrometry based proteomics Lecture 17 - Proteomics and Systems biology I
Link NOC:Mass spectrometry based proteomics Lecture 18 - Proteomics & Systems biology II
Link NOC:Mass spectrometry based proteomics Lecture 19 - Proteomics applications
Link NOC:Mass spectrometry based proteomics Lecture 20 - Advances and challenges in proteomics
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 1 - Introduction to Interactomics
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 2 - An overview of label-free technologies
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 3 - An overview of surface plasmon resonance (SPR)
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 4 - An overview of surface plasmon resonance imaging (SPRi)
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 5 - Basics of SPR: Surface chemistry
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 6 - Basics of SPR: Experimental design
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 7 - Protein immobilization for protein-protein interaction studies
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 8 - Protein-protein interaction study: Binding analysis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 9 - Protein-protein interaction study: Kinetic analysis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 10 - Protein-small molecule interaction study: Immobilization and binding analysis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 11 - Protein-small molecule interaction study: Kinetic analysis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 12 - SPR: Interactive Session - I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 13 - SPR: Interactive Session - II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 14 - An overview of ellipsometry and interferometry techniques
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 15 - An introduction to BioLayer Interferometry (BLI) and its applications in protein research
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 16 - Kinetic analysis of protein-protein interaction using BLI
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 17 - Label-free quantification of proteins using BLI
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 18 - Diffraction-based biosensors - I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 19 - Diffraction-based biosensors - II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 20 - Nanotechniques in proteomics - I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 21 - Nanotechniques in proteomics - II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 22 - High throughputplatforms of interactomics: Protein arrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 23 - Conventional label based detection techniques for Protein microarrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 24 - Novel detection techniques for Protein microarrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 25 - Recombinational cloning and its application for Protein microarrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 26 - An introduction to Cell-free protein synthesis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 27 - Cell-free synthesis based protein microarrays: PISA and NAPPA
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 28 - Cell-free synthesis based protein microarrays: MIST, DAPA and Halotag Arrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 29 - Digging deeper into NAPPA: Basic Workflow
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 30 - Digging deeper into NAPPA: Surface Chemistry, Printing and Assessment
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 31 - Application of cell free expression protein microarrays in biomarker discovery
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 32 - Application of cell free expression protein microarrays in immunological studies
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 33 - Basics of microarray image scanning
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 34 - Software for Image scanning and data processing
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 35 - Microarray Data Analysis - Part I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 36 - Microarray Data Analysis - Part II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 37 - Application of protein microarray in biomarker discovery - I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 38 - Application of protein microarray in biomarker discovery - II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 39 - Systems biology and networks
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 40 - Challenges in proteomics
Link NOC:Introduction to Proteomics Lecture 1 - Introduction to amino acids
Link NOC:Introduction to Proteomics Lecture 2 - Introduction to proteins
Link NOC:Introduction to Proteomics Lecture 3 - Protein folding and misfolding
Link NOC:Introduction to Proteomics Lecture 4 - Introduction to proteomics
Link NOC:Introduction to Proteomics Lecture 5 - Lab session – Protein-protein interaction using label-free biosensors
Link NOC:Introduction to Proteomics Lecture 6 - Sample preparation and pre-analytical factors
Link NOC:Introduction to Proteomics Lecture 7 - Sample preparation: Pre-analytical factors (Continued...)
Link NOC:Introduction to Proteomics Lecture 8 - Sample preparation: Protein extraction and quantification
Link NOC:Introduction to Proteomics Lecture 9 - One-dimensional electrophoresis
Link NOC:Introduction to Proteomics Lecture 10 - Introduction to 2-DE
Link NOC:Introduction to Proteomics Lecture 11 - 2-DE: Second dimension, staining and destaining
Link NOC:Introduction to Proteomics Lecture 12 - 2-DE: Gel analysis
Link NOC:Introduction to Proteomics Lecture 13 - 2-DE Applications
Link NOC:Introduction to Proteomics Lecture 14 - 2-DE Applications (Continued...) and Challenges
Link NOC:Introduction to Proteomics Lecture 15 - Lab session - Protein/peptide pre-fractionation using OFFGEL FRACTIONATOR and data analysis
Link NOC:Introduction to Proteomics Lecture 16 - 2D-DIGE: Basics
Link NOC:Introduction to Proteomics Lecture 17 - 2D-DIGE: Data analysis
Link NOC:Introduction to Proteomics Lecture 18 - 2D-DIGE: Applications
Link NOC:Introduction to Proteomics Lecture 19 - Systems biology and proteomics - I
Link NOC:Introduction to Proteomics Lecture 20 - Systems biology and proteomics - II
Link NOC:Introduction to Proteomics Lecture 21 - Fundamentals of mass spectrometry
Link NOC:Introduction to Proteomics Lecture 22 - Chromatography technologies
Link NOC:Introduction to Proteomics Lecture 23 - Liquid chromatography
Link NOC:Introduction to Proteomics Lecture 24 - Mass spectrometry: Ionization sources
Link NOC:Introduction to Proteomics Lecture 25 - Mass spectrometry: Mass analyzers
Link NOC:Introduction to Proteomics Lecture 26 - MALDI sample preparation and analysis
Link NOC:Introduction to Proteomics Lecture 27 - Hybrid mass spectrometry configurations
Link NOC:Introduction to Proteomics Lecture 28 - Lab session - Demonstration of Q-TOF MS technology
Link NOC:Introduction to Proteomics Lecture 29 - In-gel and in-solution digestion
Link NOC:Introduction to Proteomics Lecture 30 - Lab session - Sample preparation: tissue sample preservation technology
Link NOC:Introduction to Proteomics Lecture 31 - Introduction to quantitative proteomics
Link NOC:Introduction to Proteomics Lecture 32 - SILAC: In vivo labeling
Link NOC:Introduction to Proteomics Lecture 33 - iTRAQ: In vitro labeling
Link NOC:Introduction to Proteomics Lecture 34 - TMT: In vitro labeling
Link NOC:Introduction to Proteomics Lecture 35 - Quantitative proteomics data analysis
Link NOC:Introduction to Proteomics Lecture 36 - Proteomics applications
Link NOC:Introduction to Proteomics Lecture 37 - Challenges in proteomics
Link NOC:Introduction to Proteomics Lecture 38 - OMICS and translational research
Link NOC:Introduction to Proteomics Lecture 39 - Lab session – Targeted proteomics using triple quadrupole mass spectrometry
Link NOC:Introduction to Proteomics Lecture 40 - Lab session – Targeted proteomics: multiple reaction monitoring
Link NOC:Introduction to Biostatistics Lecture 1 - Introduction to the course
Link NOC:Introduction to Biostatistics Lecture 2 - Data representation and plotting
Link NOC:Introduction to Biostatistics Lecture 3 - Arithmetic mean
Link NOC:Introduction to Biostatistics Lecture 4 - Geometric mean
Link NOC:Introduction to Biostatistics Lecture 5 - Measure of Variability, Standard deviation
Link NOC:Introduction to Biostatistics Lecture 6 - SME, Z-Score, Box plot
Link NOC:Introduction to Biostatistics Lecture 7 - Moments, Skewness
Link NOC:Introduction to Biostatistics Lecture 8 - Kurtosis, R programming
Link NOC:Introduction to Biostatistics Lecture 9 - R programming
Link NOC:Introduction to Biostatistics Lecture 10 - Correlation
Link NOC:Introduction to Biostatistics Lecture 11 - Correlation and Regression - Part-I
Link NOC:Introduction to Biostatistics Lecture 12 - Correlation and Regression - Part-II
Link NOC:Introduction to Biostatistics Lecture 13 - Interpolation and extrapolation
Link NOC:Introduction to Biostatistics Lecture 14 - Nonlinear data fitting
Link NOC:Introduction to Biostatistics Lecture 15 - Concept of Probability: introduction and basics
Link NOC:Introduction to Biostatistics Lecture 16 - Counting principle, Permutations, and Combinations
Link NOC:Introduction to Biostatistics Lecture 17 - Conditional probability
Link NOC:Introduction to Biostatistics Lecture 18 - Conditional probability and Random variables
Link NOC:Introduction to Biostatistics Lecture 19 - Random variables, Probability mass function, and Probability density function
Link NOC:Introduction to Biostatistics Lecture 20 - Expectation, Variance and Covariance - Part-I
Link NOC:Introduction to Biostatistics Lecture 21 - Expectation, Variance and Covariance - Part-II
Link NOC:Introduction to Biostatistics Lecture 22 - Binomial random variables and Moment generating function
Link NOC:Introduction to Biostatistics Lecture 23 - Probability distribution: Poisson distribution and Uniform distribution Part-I
Link NOC:Introduction to Biostatistics Lecture 24 - Uniform distribution Part-II and Normal distribution Part-I
Link NOC:Introduction to Biostatistics Lecture 25 - Normal distribution Part-II and Exponential distribution
Link NOC:Introduction to Biostatistics Lecture 26 - Sampling distributions and Central limit theorem - Part-I
Link NOC:Introduction to Biostatistics Lecture 27 - Sampling distributions and Central limit theorem - Part-II
Link NOC:Introduction to Biostatistics Lecture 28 - Central limit theorem - Part-III and Sampling distributions of sample mean
Link NOC:Introduction to Biostatistics Lecture 29 - Central limit theorem - Part-IV and Confidence intervals
Link NOC:Introduction to Biostatistics Lecture 30 - Confidence intervals Part- II
Link NOC:Introduction to Biostatistics Lecture 31 - Test of Hypothesis - 1
Link NOC:Introduction to Biostatistics Lecture 32 - Test of Hypothesis - 2 (1 tailed and 2 tailed Test of Hypothesis, p-value)
Link NOC:Introduction to Biostatistics Lecture 33 - Test of Hypothesis - 3 (1 tailed and 2 tailed Test of Hypothesis, p-value)
Link NOC:Introduction to Biostatistics Lecture 34 - Test of Hypothesis - 4 (Type -1 and Type -2 error)
Link NOC:Introduction to Biostatistics Lecture 35 - T-test
Link NOC:Introduction to Biostatistics Lecture 36 - 1 tailed and 2 tailed T-distribution, Chi-square test
Link NOC:Introduction to Biostatistics Lecture 37 - ANOVA - 1
Link NOC:Introduction to Biostatistics Lecture 38 - ANOVA - 2
Link NOC:Introduction to Biostatistics Lecture 39 - ANOVA - 3
Link NOC:Introduction to Biostatistics Lecture 40 - ANOVA for linear regression, Block Design
Link NOC:Introduction to Mechanobiology Lecture 1 - Need to Study Mechanobiology
Link NOC:Introduction to Mechanobiology Lecture 2 - Cell as a Tent, Individual Components
Link NOC:Introduction to Mechanobiology Lecture 3 - Cell-ECM Crosstalk
Link NOC:Introduction to Mechanobiology Lecture 4 - ECM Proteins: Collagen
Link NOC:Introduction to Mechanobiology Lecture 5 - Measuring Properties of Collagen Networks
Link NOC:Introduction to Mechanobiology Lecture 6 - Properties of Collagen Networks
Link NOC:Introduction to Mechanobiology Lecture 7 - Rheology
Link NOC:Introduction to Mechanobiology Lecture 8 - Rheology of Biopolymer Networks
Link NOC:Introduction to Mechanobiology Lecture 9 - Atomic Force Microscopy (AFM)
Link NOC:Introduction to Mechanobiology Lecture 10 - Design of Protein Constructs for AFM
Link NOC:Introduction to Mechanobiology Lecture 11 - Protein Unfolding using AFM
Link NOC:Introduction to Mechanobiology Lecture 12 - Protein Unfolding using AFM
Link NOC:Introduction to Mechanobiology Lecture 13 - Focal Adhesions: Focal Adhesion Proteins
Link NOC:Introduction to Mechanobiology Lecture 14 - Focal Adhesion Organization
Link NOC:Introduction to Mechanobiology Lecture 15 - Focal Adhesions: Role of Forces
Link NOC:Introduction to Mechanobiology Lecture 16 - Cytoskeleton: Actin
Link NOC:Introduction to Mechanobiology Lecture 17 - Force-velocity Relationships of Actin Networks
Link NOC:Introduction to Mechanobiology Lecture 18 - Mesenchymal Cell Migration
Link NOC:Introduction to Mechanobiology Lecture 19 - Actin Dynamics during Mesenchymal Migration
Link NOC:Introduction to Mechanobiology Lecture 20 - Actin Dynamics during Mesenchymal Migration
Link NOC:Introduction to Mechanobiology Lecture 21 - Adhesion Independent Migration
Link NOC:Introduction to Mechanobiology Lecture 22 - Adhesion Independent and Collective Cell Migration
Link NOC:Introduction to Mechanobiology Lecture 23 - Collective Cell Migration
Link NOC:Introduction to Mechanobiology Lecture 24 - Mechanobiology of Stem Cell Fate - I
Link NOC:Introduction to Mechanobiology Lecture 25 - Mechanobiology of Stem Cell Fate - II
Link NOC:Introduction to Mechanobiology Lecture 26 - Mechanobiology of Stem Cell Fate - III
Link NOC:Introduction to Mechanobiology Lecture 27 - Mechanobiology of Diseases: Cancer - I
Link NOC:Introduction to Mechanobiology Lecture 28 - Mechanobiology of Diseases: Cancer - II
Link NOC:Introduction to Mechanobiology Lecture 29 - Mechanobiology of Diseases: Cancer - III
Link NOC:Introduction to Mechanobiology Lecture 30 - Mechanobiology of Diseases: Atherosclerosis and Hypertension
Link NOC:Introduction to Mechanobiology Lecture 31 - Mechanobiology of Diseases: Muscular Dystrophy
Link NOC:Introduction to Mechanobiology Lecture 32 - Nuclear Mechanotransduction: LINC complex
Link NOC:Introduction to Mechanobiology Lecture 33 - Nuclear Mechanotransduction: LINC Complex in Cell Migration
Link NOC:Introduction to Mechanobiology Lecture 34 - Nuclear Mechanotransduction: Gene Regulation
Link NOC:Introduction to Mechanobiology Lecture 35 - Mechanical Forces and DNA damage
Link NOC:Introduction to Mechanobiology Lecture 36 - Techniques in Mechanobiology: Hydrogels
Link NOC:Introduction to Mechanobiology Lecture 37 - Techniques in Mechanobiology: AFM
Link NOC:Introduction to Mechanobiology Lecture 38 - Techniques in Mechanobiology: Traction Force Microscopy, Trypson Deadhesion and Laser Ablation
Link NOC:Introduction to Mechanobiology Lecture 39 - Techniques in Mechanobiology: Microfabrication
Link NOC:Introduction to Mechanobiology Lecture 40 - Techniques in Mechanobiology: FRET
Link NOC:Introductory Mathematical Methods for Biologists Lecture 1 - Introduction
Link NOC:Introductory Mathematical Methods for Biologists Lecture 2 - Graphs and Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 3 - Equations as Graphs
Link NOC:Introductory Mathematical Methods for Biologists Lecture 4 - Graphs : Exponential and Periodic Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 5 - Graphs : Logarithmic and Other Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 6 - Images as 2D/3D Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 7 - Functions and its Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 8 - Computing Derivatives of Curves
Link NOC:Introductory Mathematical Methods for Biologists Lecture 9 - Rules for Calculating Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 10 - Understanding Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 11 - Curvature and Second Derivative
Link NOC:Introductory Mathematical Methods for Biologists Lecture 12 - Plotting Curves
Link NOC:Introductory Mathematical Methods for Biologists Lecture 13 - Numerical Calculation of Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 14 - Function, Derivatives and Series Expansion
Link NOC:Introductory Mathematical Methods for Biologists Lecture 15 - L'Hopital's Rule and Partial Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 16 - Integration
Link NOC:Introductory Mathematical Methods for Biologists Lecture 17 - Integration : Rules
Link NOC:Introductory Mathematical Methods for Biologists Lecture 18 - Integration : Graphical Understanding
Link NOC:Introductory Mathematical Methods for Biologists Lecture 19 - Integration : More Examples
Link NOC:Introductory Mathematical Methods for Biologists Lecture 20 - Integration : Product of Two Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 21 - Exponential Growth and Decay
Link NOC:Introductory Mathematical Methods for Biologists Lecture 22 - Scalars and Vectors
Link NOC:Introductory Mathematical Methods for Biologists Lecture 23 - Vectors : Position and Movement in 2D
Link NOC:Introductory Mathematical Methods for Biologists Lecture 24 - Cell Symmetry : Use of Polar Coordinates
Link NOC:Introductory Mathematical Methods for Biologists Lecture 25 - Gradient, Forces and Flows : Part I
Link NOC:Introductory Mathematical Methods for Biologists Lecture 26 - Gradient, Forces and Flows : Part II
Link NOC:Introductory Mathematical Methods for Biologists Lecture 27 - Understanding Diffusion
Link NOC:Introductory Mathematical Methods for Biologists Lecture 28 - Diffusion Constant and Einstein Relation 1905
Link NOC:Introductory Mathematical Methods for Biologists Lecture 29 - Diffusion Equation
Link NOC:Introductory Mathematical Methods for Biologists Lecture 30 - Diffusion vs. Active Transport
Link NOC:Introductory Mathematical Methods for Biologists Lecture 31 - Nernst Equation
Link NOC:Introductory Mathematical Methods for Biologists Lecture 32 - Fourier Series : Part I
Link NOC:Introductory Mathematical Methods for Biologists Lecture 33 - Fourier Series : Part II
Link NOC:Introductory Mathematical Methods for Biologists Lecture 34 - Fourier Transform
Link NOC:Introductory Mathematical Methods for Biologists Lecture 35 - Introduction to Statistics
Link NOC:Introductory Mathematical Methods for Biologists Lecture 36 - Mean, Standard deviation and Distribution
Link NOC:Introductory Mathematical Methods for Biologists Lecture 37 - Frequency Distribution and Probability Distribution
Link NOC:Introductory Mathematical Methods for Biologists Lecture 38 - Binomial Distribution
Link NOC:Introductory Mathematical Methods for Biologists Lecture 39 - Normal Distribution
Link NOC:Introductory Mathematical Methods for Biologists Lecture 40 - Hypothesis Testing and Mathematical Modeling
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 1 - Why biology for engineers - Part I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 2 - Why biology for engineers - Part II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 3 - Life processes and Cell
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 4 - Cell and its properties
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 5 - Clinician’s Perspective - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 6 - Nucleic Acid and Central Dogma
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 7 - DNA Tools: Gene Cloning - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 8 - DNA Tools: Gene Cloning - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 9 - DNA Tools and Biotechnology - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 10 - DNA Tools and Biotechnology - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 11 - DNA Tools and Biotechnology - III
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 12 - DNA Tools and Biotechnology - IV
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 13 - DNA Tools and Biotechnology - V
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 14 - DNA Tools and Biotechnology - VI
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 15 - Clinician’s Perspective - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 16 - Genetics - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 17 - Genetics - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 18 - Genetics - III
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 19 - Genetics - IV
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 20 - Clinician’s Perspective - III
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 21 - Chromosomal basis of inheritance
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 22 - Linkage, chromosomal disorders
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 23 - Classical Genetics Experiments
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 24 - Bacteria and Viruses
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 25 - Clinician’s Perspective - IV
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 26 - Cell cycle disregulation and Cancer
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 27 - Developmental Biology
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 28 - Principles and application of Animal Cloning
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 29 - Evolution
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 30 - Clinician’s Perspective - V
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 31 - Amino acids and proteins
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 32 - Proteins and Proteomics
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 33 - Techniques to Study Protein and Proteome - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 34 - Techniques to Study Protein and Proteome - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 35 - Bioinformatics - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 36 - Techniques to Study Protein and Proteome - III
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 37 - Protein Interactions and Microarrays
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 38 - Protein interactions and Systems biology
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 39 - Bioinformatics - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 40 - Ethics in Research and Publications
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 1 - Introduction to Interactomics and Protein Arrays
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 2 - NAPPA Technology and Protein Arrays - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 3 - NAPPA Technology and Protein Arrays - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 4 - Biomarkers: Harnessing the immune system for early detection of disease - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 5 - Biomarkers: Harnessing the immune system for early detection of disease - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 6 - Biomarkers: Harnessing the immune system for early detection of disease - III
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 7 - NAPPA and its applications in study of antibody immune response in disease and in drug Screening - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 8 - NAPPA and its applications in study of antibody immune response in disease and in drug screening - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 9 - NAPPA and its applications in study of antibody immune response in disease and in drug screening - III
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 10 - Using functional proteomics to identify biomarkers and therapeutic targets - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 11 - Using functional proteomics to identify biomarkers and therapeutic targets - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 12 - Applications of protein microarrays in Malaria Research - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 13 - Applications of protein microarrays in Malaria Research - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 14 - Applications of protein microarrays in Cancer Research - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 15 - Applications of protein microarrays in Cancer Research - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 16 - Introduction to Bioprinting and Irisâ Optical QC Benefits - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 17 - Introduction to Bioprinting and Irisâ Optical QC Benefits - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 18 - Basics and Applications of Reverse Phase Protein Arrays - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 19 - Basics and Applications of Reverse Phase Protein Arrays - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 20 - Basics and Applications of Reverse Phase Protein Arrays - III
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 21 - Antibody signatures defined by high-content peptide microarray analysis
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 22 - An overview of label-free technologies - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 23 - An overview of label-free technologies - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 24 - Mass Spectrometry coupled Interactomics - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 25 - Mass Spectrometry coupled Interactomics - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 26 - Biomolecular interactions using Bio-Layer Interferometry (BLI) - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 27 - Biomolecular interactions using Bio-Layer Interferometry (BLI) - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 28 - Biomolecular interaction analytics using MicroScale Thermophoresis
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 29 - Surface Plasmon Resonance- Principles and Assays - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 30 - Surface Plasmon Resonance- Principles and Assays - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 31 - Use of SPR in unravelling domain motif interactions of proteasomal assembly chaperones
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 32 - Next-Generation Sequencing Technology- Ion Torrentâ
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 33 - NGS Technology- Bioinformatics and data analysis - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 34 - NGS Technology- Bioinformatics and data analysis - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 35 - Next-Generation Sequencing Technology-MiSeq System
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 36 - NGS target enrichment workflow for exomes, targeted panels and beyond
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 37 - The Human Pathology Atlas: A Pathology Atlas of the Human Transcriptome - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 38 - The Human Pathology Atlas: A Pathology Atlas of the Human Transcriptome - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 39 - Conclusions and Overview - I (Statistical analysis - I)
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 40 - Conclusions and overview - II (Statistical analysis - II)
Link NOC:Introduction to Proteogenomics Lecture 1 - Proteogenomics overview - I
Link NOC:Introduction to Proteogenomics Lecture 2 - Proteogenomics overview - II
Link NOC:Introduction to Proteogenomics Lecture 3 - Introduction to Genomics - Part I : Gene sequencing and mutations
Link NOC:Introduction to Proteogenomics Lecture 4 - Introduction to Genomics - Part II : Sequence Alignment
Link NOC:Introduction to Proteogenomics Lecture 5 - Introduction to Genomics - Part III : Transcriptome
Link NOC:Introduction to Proteogenomics Lecture 6 - Perspectives in Proteogenomics - I
Link NOC:Introduction to Proteogenomics Lecture 7 - Advancement in Cancer Genomics
Link NOC:Introduction to Proteogenomics Lecture 8 - Introduction to Genomics - Part IV : Epigenome
Link NOC:Introduction to Proteogenomics Lecture 9 - Introduction to Genomics - cBioPortal
Link NOC:Introduction to Proteogenomics Lecture 10 - Genotype, Gene expression and Phenotype - I
Link NOC:Introduction to Proteogenomics Lecture 11 - Genotype, Gene expression and Phenotype - II
Link NOC:Introduction to Proteogenomics Lecture 12 - An overview of NGS technology
Link NOC:Introduction to Proteogenomics Lecture 13 - NGS - Sequencing by synthesis - I
Link NOC:Introduction to Proteogenomics Lecture 14 - NGS - Sequencing by synthesis - II
Link NOC:Introduction to Proteogenomics Lecture 15 - Introduction to Proteomics
Link NOC:Introduction to Proteogenomics Lecture 16 - Proteomics: Sample Prep and Protein Quantification
Link NOC:Introduction to Proteogenomics Lecture 17 - Applications of Proteomics
Link NOC:Introduction to Proteogenomics Lecture 18 - Introduction to MS-based Proteomics - I
Link NOC:Introduction to Proteogenomics Lecture 19 - Introduction to MS-based Proteomics - II
Link NOC:Introduction to Proteogenomics Lecture 20 - Applications of NGS - IonTorrent
Link NOC:Introduction to Proteogenomics Lecture 21 - Genomic Analysis using Droplet PCR - I
Link NOC:Introduction to Proteogenomics Lecture 22 - Introduction to MS-based Proteomics - I (Hands-on session)
Link NOC:Introduction to Proteogenomics Lecture 23 - Introduction to MS-based Proteomics - II (Hands-on session)
Link NOC:Introduction to Proteogenomics Lecture 24 - Data analysis : Normalization
Link NOC:Introduction to Proteogenomics Lecture 25 - Data analysis : Batch Correction and Missing values
Link NOC:Introduction to Proteogenomics Lecture 26 - Data analysis : Statistical Test
Link NOC:Introduction to Proteogenomics Lecture 27 - Genomic Analysis using Droplet PCR - II
Link NOC:Introduction to Proteogenomics Lecture 28 - Topics in Proteogenomics : Malaria case study
Link NOC:Introduction to Proteogenomics Lecture 29 - Machine learning and Clustering
Link NOC:Introduction to Proteogenomics Lecture 30 - Hypothesis testing
Link NOC:Introduction to Proteogenomics Lecture 31 - ProTIGY - I
Link NOC:Introduction to Proteogenomics Lecture 32 - ProTIGY - II
Link NOC:Introduction to Proteogenomics Lecture 33 - Proteomics Data Analysis
Link NOC:Introduction to Proteogenomics Lecture 34 - Proteomics Lab Demonstration - I
Link NOC:Introduction to Proteogenomics Lecture 35 - Proteomics Lab Demonstration - II
Link NOC:Introduction to Proteogenomics Lecture 36 - Workflow to Automated Data Processing
Link NOC:Introduction to Proteogenomics Lecture 37 - Introduction to Fire Cloud
Link NOC:Introduction to Proteogenomics Lecture 38 - FireCloud and Data Model
Link NOC:Introduction to Proteogenomics Lecture 39 - Bioinformatics solutions for Big Data Analysis - I
Link NOC:Introduction to Proteogenomics Lecture 40 - Bioinformatics solutions for Big Data Analysis - II
Link NOC:Introduction to Proteogenomics Lecture 41 - Introduction to Targeted Proteomics
Link NOC:Introduction to Proteogenomics Lecture 42 - Data analysis using Skyline
Link NOC:Introduction to Proteogenomics Lecture 43 - Large-scale data Science - I
Link NOC:Introduction to Proteogenomics Lecture 44 - Large-scale data Science - II
Link NOC:Introduction to Proteogenomics Lecture 45 - Large-scale data Science - III
Link NOC:Introduction to Proteogenomics Lecture 46 - DIA-SWATH Atlas - I
Link NOC:Introduction to Proteogenomics Lecture 47 - DIA-SWATH Atlas - II
Link NOC:Introduction to Proteogenomics Lecture 48 - Prediction Analysis
Link NOC:Introduction to Proteogenomics Lecture 49 - Pathway Enrichment and Network Analysis
Link NOC:Introduction to Proteogenomics Lecture 50 - Human Protein Atlas - I
Link NOC:Introduction to Proteogenomics Lecture 51 - Human Protein Atlas - II
Link NOC:Introduction to Proteogenomics Lecture 52 - Affinity based proteomics & HPA
Link NOC:Introduction to Proteogenomics Lecture 53 - Clinical Considerations for OMICS - I
Link NOC:Introduction to Proteogenomics Lecture 54 - Clinical Considerations for OMICS - II
Link NOC:Introduction to Proteogenomics Lecture 55 - Topics in Proteogenomics: Cancer case study
Link NOC:Introduction to Proteogenomics Lecture 56 - Integrative Genomics Viewer (IGV)
Link NOC:Introduction to Proteogenomics Lecture 57 - Introduction to Proteogenomics - I
Link NOC:Introduction to Proteogenomics Lecture 58 - Introduction to Proteogenomics - II
Link NOC:Introduction to Proteogenomics Lecture 59 - Sequence centric proteogenomics
Link NOC:Introduction to Proteogenomics Lecture 60 - Variant Analysis
Link NOC:Introduction to Proteogenomics Lecture 61 - Proteomics - Clinical Applications
Link NOC:Introduction to Proteogenomics Lecture 62 - Perspectives in Proteogenomics - II
Link NOC:Introduction to Proteogenomics Lecture 63 - Predictive Analysis - I
Link NOC:Introduction to Proteogenomics Lecture 64 - Predictive Analysis - II
Link NOC:Introduction to Proteogenomics Lecture 65 - Association/ Marker Selection
Link NOC:Introduction to Proteogenomics Lecture 66 - WebGestalt - I
Link NOC:Introduction to Proteogenomics Lecture 67 - WebGestalt - II
Link NOC:Introduction to Proteogenomics Lecture 68 - Perspectives in Proteogenomics - III
Link NOC:Introduction to Proteogenomics Lecture 69 - Network Analysis - I
Link NOC:Introduction to Proteogenomics Lecture 70 - Network Analysis - II
Link NOC:Introduction to Proteogenomics Lecture 71 - Mutations and Signaling - I
Link NOC:Introduction to Proteogenomics Lecture 72 - Mutations and Signaling - II
Link NOC:Introduction to Proteogenomics Lecture 73 - Pathway Enrichment - I
Link NOC:Introduction to Proteogenomics Lecture 74 - Perspectives in Proteogenomics - IV
Link NOC:Introduction to Proteogenomics Lecture 75 - Pathway Enrichment - II
Link NOC:Introduction to Proteogenomics Lecture 76 - Sequence - GSEA
Link NOC:Introduction to Proteogenomics Lecture 77 - Linked Omics - I
Link NOC:Introduction to Proteogenomics Lecture 78 - Linked Omics - II
Link NOC:Introduction to Proteogenomics Lecture 79 - Proteogenomics - Opportunities and Challenges
Link NOC:Introduction to Proteogenomics Lecture 80 - Perspectives in Proteogenomics - V
Link NOC:Interactomics: Basics and Applications Lecture 1 - Introduction to Proteomics
Link NOC:Interactomics: Basics and Applications Lecture 2 - Introduction to Interactomics
Link NOC:Interactomics: Basics and Applications Lecture 3 - High throughput platforms of interactomics: Protein arrays
Link NOC:Interactomics: Basics and Applications Lecture 4 - Cell-free expression based protein microarrays
Link NOC:Interactomics: Basics and Applications Lecture 5 - NAPPA: Recombinational Cloning, Basic workflow, Surface Chemistry, Printing and Assessment
Link NOC:Interactomics: Basics and Applications Lecture 6 - NAPPA Technology and Protein Arrays - I
Link NOC:Interactomics: Basics and Applications Lecture 7 - NAPPA Technology and Protein Arrays - II
Link NOC:Interactomics: Basics and Applications Lecture 8 - Biomarkers: Harnessing the immune system for early detection of disease - I
Link NOC:Interactomics: Basics and Applications Lecture 9 - Biomarkers: Harnessing the immune system for early detection of disease - II
Link NOC:Interactomics: Basics and Applications Lecture 10 - Biomarkers: Harnessing the immune system for early detection of disease - III
Link NOC:Interactomics: Basics and Applications Lecture 11 - NAPPA and its applications in study of antibody immune response in disease and in drug screening - I
Link NOC:Interactomics: Basics and Applications Lecture 12 - NAPPA and its applications in study of antibody immune response in disease and in drug screening - II
Link NOC:Interactomics: Basics and Applications Lecture 13 - NAPPA and its applications in study of antibody immune response in disease and in drug screening - III
Link NOC:Interactomics: Basics and Applications Lecture 14 - Using functional proteomics to identify biomarkers and therapeutic targets - I
Link NOC:Interactomics: Basics and Applications Lecture 15 - Using functional proteomics to identify biomarkers and therapeutic targets - II
Link NOC:Interactomics: Basics and Applications Lecture 16 - Applications of protein microarrays in Malaria Research - I
Link NOC:Interactomics: Basics and Applications Lecture 17 - Applications of protein microarrays in Malaria Research - II
Link NOC:Interactomics: Basics and Applications Lecture 18 - Introduction to Bioprinting and IrisOptical QC Benefits - I
Link NOC:Interactomics: Basics and Applications Lecture 19 - Introduction to Bioprinting and IrisOptical QC Benefits - II
Link NOC:Interactomics: Basics and Applications Lecture 20 - Screening of autoantibody signatures in cancer patients: Lab demonstration
Link NOC:Interactomics: Basics and Applications Lecture 21 - Basics of Image Scanning and data acquisition
Link NOC:Interactomics: Basics and Applications Lecture 22 - Applications of protein arrays in identification of autoantibody signatures - I
Link NOC:Interactomics: Basics and Applications Lecture 23 - Applications of protein arrays in identification of autoantibody signatures - II
Link NOC:Interactomics: Basics and Applications Lecture 24 - Applications of protein microarrays in deciphering PTMs and biological networks
Link NOC:Interactomics: Basics and Applications Lecture 25 - Basics and Applications of Reverse Phase Protein Arrays - I
Link NOC:Interactomics: Basics and Applications Lecture 26 - Basics and Applications of Reverse Phase Protein Arrays - II
Link NOC:Interactomics: Basics and Applications Lecture 27 - Basics and Applications of Reverse Phase Protein Arrays - III
Link NOC:Interactomics: Basics and Applications Lecture 28 - An overview of label-free technologies
Link NOC:Interactomics: Basics and Applications Lecture 29 - Surface Plasmon Resonance - Principles and Assays - I
Link NOC:Interactomics: Basics and Applications Lecture 30 - Surface Plasmon Resonance - Principles and Assays - II
Link NOC:Interactomics: Basics and Applications Lecture 31 - Basics of SPR: Surface chemistry
Link NOC:Interactomics: Basics and Applications Lecture 32 - Basics of SPR: Experimental design
Link NOC:Interactomics: Basics and Applications Lecture 33 - Protein immobilization for protein-protein interaction studies
Link NOC:Interactomics: Basics and Applications Lecture 34 - Protein-protein interaction study: Binding analysis
Link NOC:Interactomics: Basics and Applications Lecture 35 - Protein-protein interaction study: Kinetic analysis
Link NOC:Interactomics: Basics and Applications Lecture 36 - Use of SPR in unravelling domain motif interactions of proteasomal assembly chaperones
Link NOC:Interactomics: Basics and Applications Lecture 37 - Protein-small molecule interaction study: Immobilization and binding analysis
Link NOC:Interactomics: Basics and Applications Lecture 38 - Protein-small molecule interaction study: Kinetic analysis
Link NOC:Interactomics: Basics and Applications Lecture 39 - An introduction to biolayer interferometry (BLI)and its applications in protein research
Link NOC:Interactomics: Basics and Applications Lecture 40 - Biomolecular interactions using Bio-Layer Interferometry (BLI) - I
Link NOC:Interactomics: Basics and Applications Lecture 41 - Biomolecular interactions using Bio-Layer Interferometry (BLI) - II
Link NOC:Interactomics: Basics and Applications Lecture 42 - Lab session- An introduction to BioLayer Interferometry (BLI) and its applications in protein research
Link NOC:Interactomics: Basics and Applications Lecture 43 - Applications of label-free technologies - II
Link NOC:Interactomics: Basics and Applications Lecture 44 - Biomolecular interaction analytics using MicroScale Thermophoresis
Link NOC:Interactomics: Basics and Applications Lecture 45 - Mass Spectrometry coupled Interactomics - I
Link NOC:Interactomics: Basics and Applications Lecture 46 - Mass Spectrometry coupled Interactomics - II
Link NOC:Interactomics: Basics and Applications Lecture 47 - Next-Generation Sequencing Technology - Ion Torrent
Link NOC:Interactomics: Basics and Applications Lecture 48 - NGS Technology - Bioinformatics and data analysis - I
Link NOC:Interactomics: Basics and Applications Lecture 49 - NGS Technology - Bioinformatics and data analysis - II
Link NOC:Interactomics: Basics and Applications Lecture 50 - Next-Generation Sequencing Technology- Illumina
Link NOC:Interactomics: Basics and Applications Lecture 51 - Agilent complete NGS target enrichment workflow for exomes, targeted panels and beyond
Link NOC:Interactomics: Basics and Applications Lecture 52 - The Human Pathology Atlas: A Pathology Atlas of the Human Transcriptome - I
Link NOC:Interactomics: Basics and Applications Lecture 53 - The Human Pathology Atlas: A Pathology Atlas of the Human Transcriptome - II
Link NOC:Interactomics: Basics and Applications Lecture 54 - Statistical Analysis - I
Link NOC:Interactomics: Basics and Applications Lecture 55 - Statistical Analysis - II
Link NOC:Interactomics: Basics and Applications Lecture 56 - Secondary Data Analysis
Link NOC:Interactomics: Basics and Applications Lecture 57 - Pathway Enrichment and Network Analysis
Link NOC:Interactomics: Basics and Applications Lecture 58 - Data Repositories and Databases
Link NOC:Interactomics: Basics and Applications Lecture 59 - Application of multi-omics approach for better understanding of cancers
Link NOC:Interactomics: Basics and Applications Lecture 60 - Integrated Omics and Systems Biology- Conclusion
Link Enzyme Science and Engineering Lecture 1 - Introduction and Scope to Enzyme Science and Engineering
Link Enzyme Science and Engineering Lecture 2 - Characteristic Features of Enzymes
Link Enzyme Science and Engineering Lecture 3 - Enzymes as Biocatalysts
Link Enzyme Science and Engineering Lecture 4 - Enzymatic Catalysis
Link Enzyme Science and Engineering Lecture 5 - Specificity of Enzyme Action
Link Enzyme Science and Engineering Lecture 6 - Kinetics of Enzyme Catalyzed Reactions
Link Enzyme Science and Engineering Lecture 7 - Kinetics of Enzyme Catalyzed Reactions
Link Enzyme Science and Engineering Lecture 8 - Deviation from Hyperbolic Enzyme Kinetics
Link Enzyme Science and Engineering Lecture 9 - Role of Effector Molecules in Enzyme Kinetics
Link Enzyme Science and Engineering Lecture 10 - Reversible Inhibition
Link Enzyme Science and Engineering Lecture 11 - Effect of PH and Temperature on Enzyme
Link Enzyme Science and Engineering Lecture 12 - Kinetics of Bi substrate Enzyme
Link Enzyme Science and Engineering Lecture 13 - Kinetics of Bi substrate Enzyme
Link Enzyme Science and Engineering Lecture 14 - Immobilized Enzymes - I
Link Enzyme Science and Engineering Lecture 15 - Immobilized Enzymes - II
Link Enzyme Science and Engineering Lecture 16 - Immobilized Enzymes - III
Link Enzyme Science and Engineering Lecture 17 - Immobilization of Enzymes by Entrapment
Link Enzyme Science and Engineering Lecture 18 - Effect of Immobilization
Link Enzyme Science and Engineering Lecture 19 - Reactors for Enzyme Catalyzed Reactions
Link Enzyme Science and Engineering Lecture 20 - Idealized Enzyme Reactor Performance
Link Enzyme Science and Engineering Lecture 21 - Idealized Enzyme Reactor Performance
Link Enzyme Science and Engineering Lecture 22 - Kinetic Parameters for IME Systems
Link Enzyme Science and Engineering Lecture 23 - Steady State Analysis of Mass Transfer
Link Enzyme Science and Engineering Lecture 24 - Steady State Analysis of Mass Transfer
Link Enzyme Science and Engineering Lecture 25 - Non Ideal Flow in Continuous Immobilized Enzyme
Link Enzyme Science and Engineering Lecture 26 - Applications of Immobilized Enzymes in Process
Link Enzyme Science and Engineering Lecture 27 - Analytical Applications
Link Enzyme Science and Engineering Lecture 28 - Enzyme Technology Challenges
Link NOC:Introduction to Dynamical Models in Biology Lecture 1 - Mathematical modeling in Biology
Link NOC:Introduction to Dynamical Models in Biology Lecture 2 - How to Start Modeling
Link NOC:Introduction to Dynamical Models in Biology Lecture 3 - Modeling the spread of infectious disease
Link NOC:Introduction to Dynamical Models in Biology Lecture 4 - Modeling population growth
Link NOC:Introduction to Dynamical Models in Biology Lecture 5 - Numerical solution of ODE-1
Link NOC:Introduction to Dynamical Models in Biology Lecture 6 - Numerical solution of ODE-2
Link NOC:Introduction to Dynamical Models in Biology Lecture 7 - Simulating ODE-based models: Introduction to JSim
Link NOC:Introduction to Dynamical Models in Biology Lecture 8 - Simulating ODE-based models: Examples of simulation in JSim
Link NOC:Introduction to Dynamical Models in Biology Lecture 9 - Steady state and stability analysis: Understanding Steady State
Link NOC:Introduction to Dynamical Models in Biology Lecture 10 - Steady state and stability analysis: Stability of Steady States
Link NOC:Introduction to Dynamical Models in Biology Lecture 11 - Phase Plane Analysis - I
Link NOC:Introduction to Dynamical Models in Biology Lecture 12 - Phase Plane Analysis - II
Link NOC:Introduction to Dynamical Models in Biology Lecture 13 - Concepts of Bifurcation:Introduction
Link NOC:Introduction to Dynamical Models in Biology Lecture 14 - Concepts of Bifurcation:Bifurcation in Biological Systems
Link NOC:Introduction to Dynamical Models in Biology Lecture 15 - Modeling Molecular Processes in Cell: Introduction
Link NOC:Introduction to Dynamical Models in Biology Lecture 16 - Modeling Molecular Processes in Cell: Receptor-Ligand Interaction
Link NOC:Introduction to Dynamical Models in Biology Lecture 17 - Modeling Molecular Processes in Cell: Enzymatic Processes
Link NOC:Introduction to Dynamical Models in Biology Lecture 18 - Modeling Molecular Processes in Cell: Transcription and Translation
Link NOC:Introduction to Dynamical Models in Biology Lecture 19 - Modeling Cell Signaling: Negative Feedback Motif
Link NOC:Introduction to Dynamical Models in Biology Lecture 20 - Modeling Cell Signaling: Positive Feedback Motif
Link NOC:Introduction to Dynamical Models in Biology Lecture 21 - Modeling Cell Signaling: Incoherent Feedforward Motif
Link NOC:Introduction to Dynamical Models in Biology Lecture 22 - Modeling Transcriptional Circuits-1
Link NOC:Introduction to Dynamical Models in Biology Lecture 23 - Modeling Transcriptional Circuits-2
Link NOC:Introduction to Dynamical Models in Biology Lecture 24 - Online Resources for Mathematical Modeling in Biology
Link NOC:Genetic Engineering: Theory and Application Lecture 1 - Cellular Structure - Part I
Link NOC:Genetic Engineering: Theory and Application Lecture 2 - Cellular Structure - Part II
Link NOC:Genetic Engineering: Theory and Application Lecture 3 - Cellular Structure - Part III
Link NOC:Genetic Engineering: Theory and Application Lecture 4 - Metabolic Reactions in Biological System
Link NOC:Genetic Engineering: Theory and Application Lecture 5 - Growth Media For Different Expression System
Link NOC:Genetic Engineering: Theory and Application Lecture 6 - Microbial Growth Kinetics
Link NOC:Genetic Engineering: Theory and Application Lecture 7 - Isolation of a Gene Fragment - Part I
Link NOC:Genetic Engineering: Theory and Application Lecture 8 - Isolation of a Gene Fragment - Part II
Link NOC:Genetic Engineering: Theory and Application Lecture 9 - Isolation of a Gene Fragment - Part III
Link NOC:Genetic Engineering: Theory and Application Lecture 10 - Polymerase Chain Reaction
Link NOC:Genetic Engineering: Theory and Application Lecture 11 - Molecular Tools for Cloning
Link NOC:Genetic Engineering: Theory and Application Lecture 12 - Cloning Vectors - I
Link NOC:Genetic Engineering: Theory and Application Lecture 13 - Cloning Vectors - II
Link NOC:Genetic Engineering: Theory and Application Lecture 14 - DNA Delivery In Host - Part I
Link NOC:Genetic Engineering: Theory and Application Lecture 15 - DNA Delivery In Host - Part II
Link NOC:Genetic Engineering: Theory and Application Lecture 16 - Screening of Recombinant Clones
Link NOC:Genetic Engineering: Theory and Application Lecture 17 - Protein Production in Host - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 18 - Protein Production in Host - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 19 - Protein Production in Host - Part 3
Link NOC:Genetic Engineering: Theory and Application Lecture 20 - Product Recovery from Host Cells
Link NOC:Genetic Engineering: Theory and Application Lecture 21 - Basics of Chromatography - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 22 - Basics of Chromatography - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 23 - Ion-exchange Chromatography
Link NOC:Genetic Engineering: Theory and Application Lecture 24 - Hydrophobic Interaction Chromatography
Link NOC:Genetic Engineering: Theory and Application Lecture 25 - Gel Filtration chromatography - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 26 - Gel Filtration chromatography - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 27 - Affinity Chromatography - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 28 - Affinity Chromatography - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 29 - Affinity Chromatography - Part 3
Link NOC:Genetic Engineering: Theory and Application Lecture 30 - Affinity Chromatography - Part 4
Link NOC:Genetic Engineering: Theory and Application Lecture 31 - Electrophoresis - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 32 - Electrophoresis - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 33 - Electrophoresis - Part 3
Link NOC:Genetic Engineering: Theory and Application Lecture 34 - Protein Sequencing
Link NOC:Genetic Engineering: Theory and Application Lecture 35 - Spectroscopy - Part I
Link NOC:Genetic Engineering: Theory and Application Lecture 36 - Spectroscopy - Part II
Link NOC:Genetic Engineering: Theory and Application Lecture 37 - Biotechnology Applications - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 38 - Biotechnology Applications - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 39 - Biotechnology Applications - Part 3
Link NOC:Genetic Engineering: Theory and Application Lecture 40 - Summary and Conclusions - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 41 - Summary and Conclusions - Part 2
Link NOC:Experimental Biotechnology Lecture 1 - Good Lab Practices - Part 1
Link NOC:Experimental Biotechnology Lecture 2 - Good Lab Practices - Part 2
Link NOC:Experimental Biotechnology Lecture 3 - Operation of Laboratory Instruments - Part 1
Link NOC:Experimental Biotechnology Lecture 4 - Operation of Laboratory Instruments - Part 2
Link NOC:Experimental Biotechnology Lecture 5 - Operation of Laboratory Instruments - Part 3
Link NOC:Experimental Biotechnology Lecture 6 - Solution and Buffer Preparation
Link NOC:Experimental Biotechnology Lecture 7 - Basics of Electrophoresis - Part 1
Link NOC:Experimental Biotechnology Lecture 8 - Basics of Electrophoresis - Part 2
Link NOC:Experimental Biotechnology Lecture 9 - Horizontal Gel Electrophoresis
Link NOC:Experimental Biotechnology Lecture 10 - Different Varients of Gel Electrophoresis
Link NOC:Experimental Biotechnology Lecture 11 - Scientific Questions - Part 1
Link NOC:Experimental Biotechnology Lecture 12 - Scientific Questions - Part 2
Link NOC:Experimental Biotechnology Lecture 13 - Scientific Questions - Part 3
Link NOC:Experimental Biotechnology Lecture 14 - Scientific Questions - Part 4
Link NOC:Experimental Biotechnology Lecture 15 - Basics of Chromatography - Part 1
Link NOC:Experimental Biotechnology Lecture 16 - Basics of Chromatography - Part 2
Link NOC:Experimental Biotechnology Lecture 17 - Ion-Exchange Chromatography - Part 1
Link NOC:Experimental Biotechnology Lecture 18 - Ion-Exchange Chromatography - Part 2
Link NOC:Experimental Biotechnology Lecture 19 - Hydrophobic Interaction Chromatography
Link NOC:Experimental Biotechnology Lecture 20 - Gel Filtration Chromatography - Part 1
Link NOC:Experimental Biotechnology Lecture 21 - Gel Filtration Chromatography - Part 2
Link NOC:Experimental Biotechnology Lecture 22 - Gel Filtration Chromatography - Part 3
Link NOC:Experimental Biotechnology Lecture 23 - Affinity Chromatography - Part 1
Link NOC:Experimental Biotechnology Lecture 24 - Affinity Chromatography - Part 2
Link NOC:Experimental Biotechnology Lecture 25 - Affinity Chromatography - Part 3
Link NOC:Experimental Biotechnology Lecture 26 - Affinity Chromatography - Part 4
Link NOC:Experimental Biotechnology Lecture 27 - Antibody Generation
Link NOC:Experimental Biotechnology Lecture 28 - Antibody-Antigen Interaction - Part 1
Link NOC:Experimental Biotechnology Lecture 29 - Immunoassay
Link NOC:Experimental Biotechnology Lecture 30 - Antibody-Antigen Interaction - Part 2
Link NOC:Experimental Biotechnology Lecture 31 - Antibody-Antigen Interaction - Part 3
Link NOC:Experimental Biotechnology Lecture 32 - Cell Culture Medium
Link NOC:Experimental Biotechnology Lecture 33 - Cell Fractionation
Link NOC:Experimental Biotechnology Lecture 34 - Microscopy - Part 1
Link NOC:Experimental Biotechnology Lecture 35 - Microscopy - Part 2
Link NOC:Experimental Biotechnology Lecture 36 - Cell Biology Experiments
Link NOC:Experimental Biotechnology Lecture 37 - Flow Cytometry
Link NOC:Experimental Biotechnology Lecture 38 - Polymerase Chain Reaction - Part 1
Link NOC:Experimental Biotechnology Lecture 39 - Polymerase Chain Reaction - Part 2
Link NOC:Experimental Biotechnology Lecture 40 - Polymerase Chain Reaction - Part 3
Link NOC:Experimental Biotechnology Lecture 41 - Polymerase Chain Reaction - Part 4
Link NOC:Experimental Biotechnology Lecture 42 - Sequencing Techniques
Link NOC:Experimental Biotechnology Lecture 43 - Blotting Techniques - Part 1
Link NOC:Experimental Biotechnology Lecture 44 - Blotting Techniques - Part 2
Link NOC:Experimental Biotechnology Lecture 45 - Designing Experiments
Link NOC:Biointerface Engineering Lecture 1 - Intermolecular Forces
Link NOC:Biointerface Engineering Lecture 2 - Classification of Intermolecular Forces
Link NOC:Biointerface Engineering Lecture 3 - Thermodynamics Aspects of Intermolecular Forces
Link NOC:Biointerface Engineering Lecture 4 - Surface Tension and Energy
Link NOC:Biointerface Engineering Lecture 5 - Wettability
Link NOC:Biointerface Engineering Lecture 6 - Adhesion and Cohesion
Link NOC:Biointerface Engineering Lecture 7 - Methods for Surface Tension Measurement
Link NOC:Biointerface Engineering Lecture 8 - Methods for Contact Angle Measurement
Link NOC:Biointerface Engineering Lecture 9 - Determination of Surface Tension of Solids
Link NOC:Biointerface Engineering Lecture 10 - Protein Adsorption
Link NOC:Biointerface Engineering Lecture 11 - Characterization of Protein Adsorption
Link NOC:Biointerface Engineering Lecture 12 - Kinetics of Protein Adsorption
Link NOC:Biointerface Engineering Lecture 13 - Aggregation of Proteins
Link NOC:Biointerface Engineering Lecture 14 - Kinetics of Protein Aggregation
Link NOC:Biointerface Engineering Lecture 15 - Effect of Surfaces on the Aggregation of Protein
Link NOC:Biointerface Engineering Lecture 16 - Host Responses to Biomaterials
Link NOC:Biointerface Engineering Lecture 17 - Cell Adhesion
Link NOC:Biointerface Engineering Lecture 18 - Biocompatibility of Biomaterials
Link NOC:Biointerface Engineering Lecture 19 - Surface Modification
Link NOC:Biointerface Engineering Lecture 20 - Surface Modification Techniques
Link NOC:Biointerface Engineering Lecture 21 - Coating of Calcium Phosphates on Ti-6Al-4V
Link NOC:Biointerface Engineering Lecture 22 - Surface Characterization
Link NOC:Biointerface Engineering Lecture 23 - Self-Assembled Monolayers
Link NOC:Biointerface Engineering Lecture 24 - Effect of SAMs on Biointerfacial Interactions
Link Animal Physiology Lecture 1 - Animal Physiology
Link Animal Physiology Lecture 2 - Animal Physiology
Link Animal Physiology Lecture 3 - Animal Physiology
Link Animal Physiology Lecture 4 - Animal Physiology
Link Animal Physiology Lecture 5 - Animal Physiology
Link Animal Physiology Lecture 6 - Animal Physiology
Link Animal Physiology Lecture 7 - Animal Physiology
Link Animal Physiology Lecture 8 - Animal Physiology
Link Animal Physiology Lecture 9 - Animal Physiology
Link Animal Physiology Lecture 10 - Animal Physiology
Link Animal Physiology Lecture 11 - Animal Physiology
Link Animal Physiology Lecture 12 - Animal Physiology
Link Animal Physiology Lecture 13 - Animal Physiology
Link Animal Physiology Lecture 14 - Animal Physiology
Link Animal Physiology Lecture 15 - Animal Physiology
Link Animal Physiology Lecture 16 - Animal Physiology
Link Animal Physiology Lecture 17 - Animal Physiology
Link Animal Physiology Lecture 18 - Animal Physiology
Link Animal Physiology Lecture 19 - Animal Physiology
Link Animal Physiology Lecture 20 - Animal Physiology
Link Animal Physiology Lecture 21 - Animal Physiology
Link Animal Physiology Lecture 22 - Animal Physiology
Link Animal Physiology Lecture 23 - Animal Physiology
Link Animal Physiology Lecture 24 - Animal Physiology
Link Animal Physiology Lecture 25 - Animal Physiology
Link Animal Physiology Lecture 26 - Animal Physiology
Link Animal Physiology Lecture 27 - Animal Physiology
Link Animal Physiology Lecture 28 - Animal Physiology
Link Animal Physiology Lecture 29 - Animal Physiology
Link Animal Physiology Lecture 30 - Animal Physiology
Link Animal Physiology Lecture 31 - Animal Physiology
Link Animal Physiology Lecture 32 - Animal Physiology
Link Animal Physiology Lecture 33 - Animal Physiology
Link Animal Physiology Lecture 34 - Animal Physiology
Link Animal Physiology Lecture 35 - Animal Physiology
Link Animal Physiology Lecture 36 - Animal Physiology
Link Animal Physiology Lecture 37 - Animal Physiology
Link Animal Physiology Lecture 38 - Animal Physiology
Link Animal Physiology Lecture 39 - Animal Physiology
Link Animal Physiology Lecture 40 - Animal Physiology
Link Bio electricity Lecture 1 - Bio electricity
Link Bio electricity Lecture 2 - Bio electricity
Link Bio electricity Lecture 3 - Bio electricity
Link Bio electricity Lecture 4 - Bio electricity
Link Bio electricity Lecture 5 - Bio electricity
Link Bio electricity Lecture 6 - Bio electricity
Link Bio electricity Lecture 7 - Bio electricity
Link Bio electricity Lecture 8 - Bio electricity
Link Bio electricity Lecture 9 - Bio electricity
Link Bio electricity Lecture 10 - Bio electricity
Link Bio electricity Lecture 11 - Bio electricity
Link Bio electricity Lecture 12 - Bio electricity
Link Bio electricity Lecture 13 - Bio electricity
Link Bio electricity Lecture 14 - Bio electricity
Link Bio electricity Lecture 15 - Bio electricity
Link Bio electricity Lecture 16 - Bio electricity
Link Bio electricity Lecture 17 - Bio electricity
Link Bio electricity Lecture 18 - Bio electricity
Link Bio electricity Lecture 19 - Bio electricity
Link Bio electricity Lecture 20 - Bio electricity
Link Bio electricity Lecture 21 - Bio electricity
Link Bio electricity Lecture 22 - Bio electricity
Link Bio electricity Lecture 23 - Bio electricity
Link Bio electricity Lecture 24 - Bio electricity
Link Bio electricity Lecture 25 - Bio electricity
Link Bio electricity Lecture 26 - Bio electricity
Link Bio electricity Lecture 27 - Bio electricity
Link Bio electricity Lecture 28 - Bio electricity
Link Bio electricity Lecture 29 - Bio electricity
Link Bio electricity Lecture 30 - Bio electricity
Link Bio electricity Lecture 31 - Bio electricity
Link Bio electricity Lecture 32 - Bio electricity
Link Bio electricity Lecture 33 - Bio electricity
Link Bio electricity Lecture 34 - Bio electricity
Link Bio electricity Lecture 35 - Bio electricity
Link Bio electricity Lecture 36 - Bio electricity
Link Bio electricity Lecture 37 - Bio electricity
Link Bio electricity Lecture 38 - Bio electricity
Link Bio electricity Lecture 39 - Bio electricity
Link Bio electricity Lecture 40 - Bio electricity
Link NOC:Human Molecular Genetics Lecture 1 - Fundamentals of central dogma, Part 1
Link NOC:Human Molecular Genetics Lecture 2 - Fundamentals of central dogma, Part 2
Link NOC:Human Molecular Genetics Lecture 3 - Fundamentals of central dogma, Part 3
Link NOC:Human Molecular Genetics Lecture 4 - Chromosome Structure and Function
Link NOC:Human Molecular Genetics Lecture 5 - Pedigree Analysis
Link NOC:Human Molecular Genetics Lecture 6 - Complications in Mendelian Pedigree Patterns
Link NOC:Human Molecular Genetics Lecture 7 - DNA Cloning and Hybridization Techniques - Part 1
Link NOC:Human Molecular Genetics Lecture 8 - DNA Cloning and Hybridization Techniques - Part 2
Link NOC:Human Molecular Genetics Lecture 9 - Practice Session 1: Problems Related to Pedigree Analysis
Link NOC:Human Molecular Genetics Lecture 10 - Practice Session 2: Restriction Fragment Length Polymorphism and its Applications in Pedigree Analysis
Link NOC:Human Molecular Genetics Lecture 11 - Mutations and instability of human DNA (Part 1)
Link NOC:Human Molecular Genetics Lecture 12 - Mutations and instability of human DNA (Part 2)
Link NOC:Human Molecular Genetics Lecture 13 - Animal Models for Human Diseases
Link NOC:Human Molecular Genetics Lecture 14 - Positional cloning of genes for monogenic disorders
Link NOC:Human Molecular Genetics Lecture 15 - Human Genome Project and HapMap project
Link NOC:Functional Genomics Lecture 1 - Introduction to Functional Genomics
Link NOC:Functional Genomics Lecture 2 - The Genomics Era
Link NOC:Functional Genomics Lecture 3 - Epigenetics
Link NOC:Functional Genomics Lecture 4 - Forward Genetics vs Reverse Genetics
Link NOC:Functional Genomics Lecture 5 - Genome Editing Approaches - Part 1
Link NOC:Functional Genomics Lecture 6 - Genome Editing Approaches - Part 2
Link NOC:Functional Genomics Lecture 7 - Transcriptomics - Part 1
Link NOC:Functional Genomics Lecture 8 - Transcriptomics - Part 2
Link NOC:Functional Genomics Lecture 9 - Genome Sequence Databases
Link NOC:Functional Genomics Lecture 10 - DNA Sequencing Methods - Part 1
Link NOC:Functional Genomics Lecture 11 - DNA Sequencing Methods - Part 2
Link NOC:Functional Genomics Lecture 12 - Applications of Next-Generation Sequencing (NGS)
Link NOC:Functional Genomics Lecture 13 - Tutorial - Session 1
Link NOC:Functional Genomics Lecture 14 - Tutorial - Session 2
Link NOC:Functional Genomics Lecture 15 - Genomic Insight into Evolution
Link NOC:Functional Genomics Lecture 16 - Genome sequence: Different Questions, Different Comparisons
Link NOC:Functional Genomics Lecture 17 - Outcome of Comparative Genomics
Link NOC:Functional Genomics Lecture 18 - Laboratory - Session 1
Link NOC:Functional Genomics Lecture 19 - Laboratory - Session 2
Link NOC:Bioenergy Lecture 1 - Introduction
Link NOC:Bioenergy Lecture 2 - Oil Economy of the World
Link NOC:Bioenergy Lecture 3 - Unit of Energy and Introduction of Bioenergy
Link NOC:Bioenergy Lecture 4 - How Biomass Formed on the Earth
Link NOC:Bioenergy Lecture 5 - Road Map of Bioenergy
Link NOC:Bioenergy Lecture 6 - Basic Biomass Technology (Resources and Production)
Link NOC:Bioenergy Lecture 7 - Basics of Mechanism of Light Reaction
Link NOC:Bioenergy Lecture 8 - Exploration of Photosynthesis Process
Link NOC:Bioenergy Lecture 9 - In Photosynthesis Oxygen Comes from Water Molecule
Link NOC:Bioenergy Lecture 10 - Hill Reaction
Link NOC:Bioenergy Lecture 11 - Electron Transport Process in Light Reaction
Link NOC:Bioenergy Lecture 12 - How Carbon dioxide converted in Carbohydrate
Link NOC:Bioenergy Lecture 13 - From Carbon dioxide to two Molecules of 3 - Phospho Glycerate by RUBISCO
Link NOC:Bioenergy Lecture 14 - RUBISCO enzyme
Link NOC:Bioenergy Lecture 15 - Photo respiration and Calvin Cycle
Link NOC:Bioenergy Lecture 16 - Efficiency Calculation of Photosynthesis Process
Link NOC:Bioenergy Lecture 17 - C3 and C4 Plant Structure and Photosynthesis Process
Link NOC:Bioenergy Lecture 18 - Biomass production System and their Categorization
Link NOC:Bioenergy Lecture 19 - Important Parameters for Selecting Biomass Crops
Link NOC:Bioenergy Lecture 20 - Factors Determining the Conversion Process - I
Link NOC:Bioenergy Lecture 21 - Factors Determining the Conversion Process - II
Link NOC:Bioenergy Lecture 22 - Factors Determining the Conversion Process - III
Link NOC:Bioenergy Lecture 23 - Conversion Technology
Link NOC:Bioenergy Lecture 24 - Conversion Process- (Combustion Process)
Link NOC:Bioenergy Lecture 25 - Pyrolysis Process
Link NOC:Bioenergy Lecture 26 - Classification of Pyrolysis
Link NOC:Bioenergy Lecture 27 - Bio Oil - (Solution for Thermal Instability and Corrosivity)
Link NOC:Bioenergy Lecture 28 - Spark Ignition Engine
Link NOC:Bioenergy Lecture 29 - Compression Ignition Engine
Link NOC:Bioenergy Lecture 30 - Carbonization - Graphene like material
Link NOC:Bioenergy Lecture 31 - Introduction of Gasification
Link NOC:Bioenergy Lecture 32 - Thermo Chemical Process of Gasification
Link NOC:Bioenergy Lecture 33 - Feed Stock Treatment of Gasification
Link NOC:Bioenergy Lecture 34 - Feed Stock Property
Link NOC:Bioenergy Lecture 35 - Gasification Types - Up Drift Gasifier
Link NOC:Bioenergy Lecture 36 - Down drift and Cross Flow Gasifier
Link NOC:Bioenergy Lecture 37 - Operation and Performance of Fixed Bed Gasifier
Link NOC:Bioenergy Lecture 38 - Fludized Bed Gasification
Link NOC:Bioenergy Lecture 39 - Operation and Performance of Fluidized Bed Gasifier
Link NOC:Bioenergy Lecture 40 - Biological Root of Gasification and Summary of Course
Link NOC:Animal Physiology Lecture 1 - An Introduction to Anatomy and Physiology
Link NOC:Animal Physiology Lecture 2 - Organization of living system
Link NOC:Animal Physiology Lecture 3 - Homeostasis and system integration
Link NOC:Animal Physiology Lecture 4 - Positive feedback loop in homeostasis
Link NOC:Animal Physiology Lecture 5 - Chemical basis of organization of the body
Link NOC:Animal Physiology Lecture 6 - Integumentary System - I
Link NOC:Animal Physiology Lecture 7 - Integumentary system - II
Link NOC:Animal Physiology Lecture 8 - Integumentary System - III
Link NOC:Animal Physiology Lecture 9 - Bone and Cartilage - I
Link NOC:Animal Physiology Lecture 10 - Bone and Cartilage - II
Link NOC:Animal Physiology Lecture 11 - Introduction of muscle
Link NOC:Animal Physiology Lecture 12 - Skeletal muscle formation
Link NOC:Animal Physiology Lecture 13 - Anatomy of skeletal muscle
Link NOC:Animal Physiology Lecture 14 - Contraction in muscle
Link NOC:Animal Physiology Lecture 15 - Function of actin and myosin
Link NOC:Animal Physiology Lecture 16 - Length tension relationship of skeletal muscle
Link NOC:Animal Physiology Lecture 17 - Excitation contraction coupling with nervous system
Link NOC:Animal Physiology Lecture 18 - Stretch reflex phenomena
Link NOC:Animal Physiology Lecture 19 - Nervous system anatomy and signaling
Link NOC:Animal Physiology Lecture 20 - Structure and circuit of neurons
Link NOC:Animal Physiology Lecture 21 - Origin of biological cell
Link NOC:Animal Physiology Lecture 22 - Excitability in cell
Link NOC:Animal Physiology Lecture 23 - Ion transportation in the cell
Link NOC:Animal Physiology Lecture 24 - Signal propagation in neurons
Link NOC:Animal Physiology Lecture 25 - Neurotransmitter and action potential
Link NOC:Animal Physiology Lecture 26 - Spatial temporal summation of signal in mesh neurons
Link NOC:Animal Physiology Lecture 27 - Anatomy of Hippo-campus
Link NOC:Animal Physiology Lecture 28 - Epilepsy and memory
Link NOC:Animal Physiology Lecture 29 - Long term potentiation
Link NOC:Animal Physiology Lecture 30 - Long term depression
Link NOC:Animal Physiology Lecture 31 - Alzheimers disease
Link NOC:Animal Physiology Lecture 32 - Parkinsons disease
Link NOC:Animal Physiology Lecture 33 - Amyotrophic lateral sclerosis
Link NOC:Animal Physiology Lecture 34 - Spinal cord injury
Link NOC:Animal Physiology Lecture 35 - Glial cells
Link NOC:Animal Physiology Lecture 36 - Stretch reflex arc circuit - I
Link NOC:Animal Physiology Lecture 37 - Stretch reflex arc circuit - II
Link NOC:Animal Physiology Lecture 38 - Neuro muscular junction
Link NOC:Animal Physiology Lecture 39 - Hearing system
Link NOC:Animal Physiology Lecture 40 - Olfaction system
Link NOC:Animal Physiology Lecture 41 - Anatomy of eye
Link NOC:Animal Physiology Lecture 42 - Eye lens and cataract
Link NOC:Animal Physiology Lecture 43 - Structure of Retina
Link NOC:Animal Physiology Lecture 44 - Image formation and processing in eyes
Link NOC:Animal Physiology Lecture 45 - Mechanism of photo processing by rods
Link NOC:Animal Physiology Lecture 46 - Structure and Function of Heart - I
Link NOC:Animal Physiology Lecture 47 - Structure and Function of Heart - II
Link NOC:Animal Physiology Lecture 48 - Conduction circuit of heart
Link NOC:Animal Physiology Lecture 49 - Contractile system and Conducting system
Link NOC:Animal Physiology Lecture 50 - EKG and Comparison of action potential between pace make cell and work cell
Link NOC:Animal Physiology Lecture 51 - Respiratory Physiology
Link NOC:Animal Physiology Lecture 52 - Anatomy and physiology of Blood vessels - I
Link NOC:Animal Physiology Lecture 53 - Anatomy and Physiology of Blood vessels - II
Link NOC:Animal Physiology Lecture 54 - Anatomy and physiology of blood vessels - III
Link NOC:Animal Physiology Lecture 55 - Anatomy and physiology of blood vessels - IV
Link NOC:Animal Physiology Lecture 56 - Endocrine system - I
Link NOC:Animal Physiology Lecture 57 - Digestive system and Endocrine system - II
Link NOC:Animal Physiology Lecture 58 - Blood
Link NOC:Animal Physiology Lecture 59 - Kidney and immune system
Link NOC:Animal Physiology Lecture 60 - Reproductive system
Link NOC:Cell Culture Technologies Lecture 1 - Introduction of Cell Culture Technology
Link NOC:Cell Culture Technologies Lecture 2 - Philosophy and complexity in cell culture
Link NOC:Cell Culture Technologies Lecture 3 - To grow the cell outside the body
Link NOC:Cell Culture Technologies Lecture 4 - Cell cycle concept
Link NOC:Cell Culture Technologies Lecture 5 - Dividing cells
Link NOC:Cell Culture Technologies Lecture 6 - Biology of cell culture
Link NOC:Cell Culture Technologies Lecture 7 - Layout(s) and design(s) of cell culture facility
Link NOC:Cell Culture Technologies Lecture 8 - Precautions during designing the lab layout - I
Link NOC:Cell Culture Technologies Lecture 9 - Precautions during designing the lab layout - II
Link NOC:Cell Culture Technologies Lecture 10 - Precautions during designing the lab layout - III
Link NOC:Cell Culture Technologies Lecture 11 - State of the art facility in cell culture lab - I
Link NOC:Cell Culture Technologies Lecture 12 - State of the art facility in cell culture lab - II
Link NOC:Cell Culture Technologies Lecture 13 - Specialized facility in cell culture lab
Link NOC:Cell Culture Technologies Lecture 14 - Interaction of cell and glass/polycorbonate surface - I
Link NOC:Cell Culture Technologies Lecture 15 - Interaction of cell and glass/polycorbonate surface - II
Link NOC:Cell Culture Technologies Lecture 16 - Poly D lysine deposition
Link NOC:Cell Culture Technologies Lecture 17 - Surface chemical analysis
Link NOC:Cell Culture Technologies Lecture 18 - Cell growth process
Link NOC:Cell Culture Technologies Lecture 19 - Cell surface interface
Link NOC:Cell Culture Technologies Lecture 20 - Cell culture substrate patterning
Link NOC:Cell Culture Technologies Lecture 21 - Introduction of define system
Link NOC:Cell Culture Technologies Lecture 22 - Mechanical dissociation of hippocampal tissue
Link NOC:Cell Culture Technologies Lecture 23 - Rules for mechanical dissociation of tissue
Link NOC:Cell Culture Technologies Lecture 24 - Drum molecule testing
Link NOC:Cell Culture Technologies Lecture 25 - Adult hippocampal neuron dissociation
Link NOC:Cell Culture Technologies Lecture 26 - Cell separation and In vitro myelination cell culture mode - I
Link NOC:Cell Culture Technologies Lecture 27 - Cell separation and In vitro myelination cell culture mode - II
Link NOC:Cell Culture Technologies Lecture 28 - Cell separation and In vitro myelination cell culture mode - III
Link NOC:Cell Culture Technologies Lecture 29 - Cell Separation and In vitro myelination cell culture mode - IV
Link NOC:Cell Culture Technologies Lecture 30 - Cell separation and in vitro myelination cell culture mode - V
Link NOC:Cell Culture Technologies Lecture 31 - Fluorescent assisted cell sorting
Link NOC:Cell Culture Technologies Lecture 32 - Condition for regenerated cells
Link NOC:Cell Culture Technologies Lecture 33 - Introduction of skeletal muscle cell culture
Link NOC:Cell Culture Technologies Lecture 34 - Skeletal muscle cell culture
Link NOC:Cell Culture Technologies Lecture 35 - Cardiac muscle cell culture
Link NOC:Cell Culture Technologies Lecture 36 - Advance cell culture modules - I
Link NOC:Cell Culture Technologies Lecture 37 - Advance cell culture modules - II
Link NOC:Cell Culture Technologies Lecture 38 - Advance cell culture modules - III
Link NOC:Cell Culture Technologies Lecture 39 - Advance cell culture modules - IV
Link NOC:Cell Culture Technologies Lecture 40 - Advance cell culture modules - V
Link NOC:Forest Biometry Lecture 1 - Introduction
Link NOC:Forest Biometry Lecture 2 - Recap of formulae: area and volume
Link NOC:Forest Biometry Lecture 3 - Recap of trigonometry
Link NOC:Forest Biometry Lecture 4 - Measurment of central tendency and dispersion
Link NOC:Forest Biometry Lecture 5 - Graphical presentation of data
Link NOC:Forest Biometry Lecture 6 - Shape of a tree: Form and Taper
Link NOC:Forest Biometry Lecture 7 - Metzgers theory
Link NOC:Forest Biometry Lecture 8 - Form factor and form quotients
Link NOC:Forest Biometry Lecture 9 - Taper equations
Link NOC:Forest Biometry Lecture 10 - Making the cuts
Link NOC:Forest Biometry Lecture 11 - Cross-section of a tree
Link NOC:Forest Biometry Lecture 12 - Where to measure the diameter
Link NOC:Forest Biometry Lecture 13 - Callipers - Usages and Issues
Link NOC:Forest Biometry Lecture 14 - Tape: Usage and issue
Link NOC:Forest Biometry Lecture 15 - Measurement of bark and growth rings
Link NOC:Forest Biometry Lecture 16 - Tree height: Direct and indirect measurements
Link NOC:Forest Biometry Lecture 17 - Method of similar triangles: Shadow and sticks
Link NOC:Forest Biometry Lecture 18 - Distance measurements: foot, tape and rangefinder
Link NOC:Forest Biometry Lecture 19 - Angular measurement
Link NOC:Forest Biometry Lecture 20 - LIDAR
Link NOC:Forest Biometry Lecture 21 - Canopy attributes - Part I
Link NOC:Forest Biometry Lecture 22 - Canopy attributes - Part II
Link NOC:Forest Biometry Lecture 23 - Canopy attributes - Part III
Link NOC:Forest Biometry Lecture 24 - Canopy cover and closure
Link NOC:Forest Biometry Lecture 25 - Photogrammetry
Link NOC:Forest Biometry Lecture 26 - Basal area of a tree and stand
Link NOC:Forest Biometry Lecture 27 - Stand basal area, crop diameter and crop age
Link NOC:Forest Biometry Lecture 28 - Point sampling - I
Link NOC:Forest Biometry Lecture 29 - Point sampling - II
Link NOC:Forest Biometry Lecture 30 - Number density and sample calculations
Link NOC:Forest Biometry Lecture 31 - Volume: Direct calculations through sections
Link NOC:Forest Biometry Lecture 32 - The Quarter - girth formula
Link NOC:Forest Biometry Lecture 33 - Volume computations in the field
Link NOC:Forest Biometry Lecture 34 - Volume Table
Link NOC:Forest Biometry Lecture 35 - Forest Sampling
Link NOC:Forest Biometry Lecture 36 - Density and mass measurement
Link NOC:Forest Biometry Lecture 37 - Normalized difference vegetation Index (NDVI)
Link NOC:Forest Biometry Lecture 38 - Site quality
Link NOC:Forest Biometry Lecture 39 - Recap - I
Link NOC:Forest Biometry Lecture 40 - Recap - II
Link NOC:Introduction to Professional and Scientific Communication Lecture 1 - Introduction to the topic
Link NOC:Introduction to Professional and Scientific Communication Lecture 2 - Where do research ideas come from?
Link NOC:Introduction to Professional and Scientific Communication Lecture 3 - Inductive vs Deductive Reasoning
Link NOC:Introduction to Professional and Scientific Communication Lecture 4 - Scientific Hypothesis
Link NOC:Introduction to Professional and Scientific Communication Lecture 5 - Scientific Hypothesis (Continued...)
Link NOC:Introduction to Professional and Scientific Communication Lecture 6 - Testing the Hypothesis
Link NOC:Introduction to Professional and Scientific Communication Lecture 7 - Introduction to Scientific Writing
Link NOC:Introduction to Professional and Scientific Communication Lecture 8 - Writing an Abstract
Link NOC:Introduction to Professional and Scientific Communication Lecture 9 - Title for a Research Paper
Link NOC:Introduction to Professional and Scientific Communication Lecture 10 - Title and Keywords
Link NOC:Introduction to Professional and Scientific Communication Lecture 11 - Mileposts for the Article Writing
Link NOC:Introduction to Professional and Scientific Communication Lecture 12 - Writing the Methods Section
Link NOC:Introduction to Professional and Scientific Communication Lecture 13 - Writing the Results Section
Link NOC:Introduction to Professional and Scientific Communication Lecture 14 - Writing Results Section (Continued...)
Link NOC:Introduction to Professional and Scientific Communication Lecture 15 - How to Prepare Figures
Link NOC:Introduction to Professional and Scientific Communication Lecture 16 - How to Prepare Schematics
Link NOC:Introduction to Professional and Scientific Communication Lecture 17 - How to write Introduction and Discussion Sections
Link NOC:Introduction to Professional and Scientific Communication Lecture 18 - Finalizing the Manuscript and Ethics in Research
Link NOC:Introduction to Professional and Scientific Communication Lecture 19 - Writing a Research Proposal and Preparing for a Presentation
Link NOC:Introduction to Professional and Scientific Communication Lecture 20 - Tutorial Session : Oral communication
Link NOC:Bioelectrochemistry Lecture 1 - Basic Concepts - I
Link NOC:Bioelectrochemistry Lecture 2 - Basic Concepts - II
Link NOC:Bioelectrochemistry Lecture 3 - Key Terms
Link NOC:Bioelectrochemistry Lecture 4 - Galvanic Cells - I
Link NOC:Bioelectrochemistry Lecture 5 - Galvanic Cells - II
Link NOC:Bioelectrochemistry Lecture 6 - Salt Bridge
Link NOC:Bioelectrochemistry Lecture 7 - Standard Potentials - I
Link NOC:Bioelectrochemistry Lecture 8 - Standard Potentials - II
Link NOC:Bioelectrochemistry Lecture 9 - Standard Potentials - III
Link NOC:Bioelectrochemistry Lecture 10 - Nernst Equation
Link NOC:Bioelectrochemistry Lecture 11 - Relationship between Standard electrode potential (E°) and Equilibrium constant (K)
Link NOC:Bioelectrochemistry Lecture 12 - Cell as chemical probe and Biochemist's formal potential
Link NOC:Bioelectrochemistry Lecture 13 - Concept of Concentration Cell - I
Link NOC:Bioelectrochemistry Lecture 14 - Concept of Concentration Cell - II
Link NOC:Bioelectrochemistry Lecture 15 - Bio-electrochemistry of excitable cells (nerve cells)
Link NOC:Bioelectrochemistry Lecture 16 - Types of electrodes
Link NOC:Bioelectrochemistry Lecture 17 - Critical care profile and metal electrode
Link NOC:Bioelectrochemistry Lecture 18 - pH measurement: Ion selective electrode
Link NOC:Bioelectrochemistry Lecture 19 - Redox indicators amperometry: glucose, oxygen sensors
Link NOC:Bioelectrochemistry Lecture 20 - Redox proteins, Metalloproteins and Cyclic Voltammetry
Link NOC:Bioenergetics of Life Processes Lecture 1 - Bioenergetics of Life Processes: An Overview
Link NOC:Bioenergetics of Life Processes Lecture 2 - Bioenergetics: Origin of life
Link NOC:Bioenergetics of Life Processes Lecture 3 - Iron-Sulfur world
Link NOC:Bioenergetics of Life Processes Lecture 4 - Evolution of complex cellular membranes
Link NOC:Bioenergetics of Life Processes Lecture 5 - Charge transfer across membrane: Key terms
Link NOC:Bioenergetics of Life Processes Lecture 6 - Biological order and energy - I
Link NOC:Bioenergetics of Life Processes Lecture 7 - Biological order and energy - II
Link NOC:Bioenergetics of Life Processes Lecture 8 - Biological order and energy - III
Link NOC:Bioenergetics of Life Processes Lecture 9 - Summary of thermodynamical parameters - I
Link NOC:Bioenergetics of Life Processes Lecture 10 - Summary of thermodynamical parameters - II
Link NOC:Bioenergetics of Life Processes Lecture 11 - Photosynthesis - I
Link NOC:Bioenergetics of Life Processes Lecture 12 - Photosynthesis - II
Link NOC:Bioenergetics of Life Processes Lecture 13 - Photosynthesis - III
Link NOC:Bioenergetics of Life Processes Lecture 14 - Photosynthesis - IV
Link NOC:Bioenergetics of Life Processes Lecture 15 - Photosynthesis - V
Link NOC:Bioenergetics of Life Processes Lecture 16 - Photosynthesis - VI
Link NOC:Bioenergetics of Life Processes Lecture 17 - Photosynthesis - VII
Link NOC:Bioenergetics of Life Processes Lecture 18 - Photosynthesis - VIII
Link NOC:Bioenergetics of Life Processes Lecture 19 - ATP Synthesis
Link NOC:Bioenergetics of Life Processes Lecture 20 - Mitochondria and Chemiosmotic hypothesis
Link NOC:WildLife Conservation Lecture 1 - Preliminaries
Link NOC:WildLife Conservation Lecture 2 - A closer look at Biodiversity
Link NOC:WildLife Conservation Lecture 3 - Economics Valuation of Biodiversity
Link NOC:WildLife Conservation Lecture 4 - Threats to Biodiversity
Link NOC:WildLife Conservation Lecture 5 - Preliminaries
Link NOC:WildLife Conservation Lecture 6 - Basics of Sampling
Link NOC:WildLife Conservation Lecture 7 - Distance Sampling - I
Link NOC:WildLife Conservation Lecture 8 - Distance Sampling - II
Link NOC:WildLife Conservation Lecture 9 - Radio-telemetry
Link NOC:WildLife Conservation Lecture 10 - Behavioural monitoring
Link NOC:WildLife Conservation Lecture 11 - What is a habitat
Link NOC:WildLife Conservation Lecture 12 - Habitat degradation, loss, fragmentation and displacement
Link NOC:WildLife Conservation Lecture 13 - Reserve selection and design
Link NOC:WildLife Conservation Lecture 14 - Habitat management and improvement
Link NOC:WildLife Conservation Lecture 15 - Some terminologies
Link NOC:WildLife Conservation Lecture 16 - Some common wildlife diseases
Link NOC:WildLife Conservation Lecture 17 - Principles of disease management
Link NOC:WildLife Conservation Lecture 18 - Preliminaries
Link NOC:WildLife Conservation Lecture 19 - Mechanical capture
Link NOC:WildLife Conservation Lecture 20 - Chemical capture
Link NOC:WildLife Conservation Lecture 21 - Capture myopathy
Link NOC:WildLife Conservation Lecture 22 - Care of immobilised animal
Link NOC:WildLife Conservation Lecture 23 - Legal aspects of capture and restraint
Link NOC:WildLife Conservation Lecture 24 - Other topics in capture and restraint
Link NOC:WildLife Conservation Lecture 25 - Preliminaries and introduction to genetics
Link NOC:WildLife Conservation Lecture 26 - Population genetics
Link NOC:WildLife Conservation Lecture 27 - Chromosomal and genetic disorders, inbreeding
Link NOC:WildLife Conservation Lecture 28 - Population viability analysis
Link NOC:WildLife Conservation Lecture 29 - Reintroductions and outbreeding
Link NOC:WildLife Conservation Lecture 30 - Fundamentals
Link NOC:WildLife Conservation Lecture 31 - Zoos and their management
Link NOC:WildLife Conservation Lecture 32 - Botanical gardens
Link NOC:WildLife Conservation Lecture 33 - Other aspects: cryopreservation, seed banks, etc.
Link NOC:WildLife Conservation Lecture 34 - Impacts of climate change
Link NOC:WildLife Conservation Lecture 35 - Plastics and biodiversity
Link NOC:WildLife Conservation Lecture 36 - Oil spills
Link NOC:WildLife Conservation Lecture 37 - Crisis and learnings: The Sariska case-study
Link NOC:WildLife Conservation Lecture 38 - Revision - I
Link NOC:WildLife Conservation Lecture 39 - Revision - II
Link NOC:WildLife Conservation Lecture 40 - Revision - III
Link NOC:Nanotechnology in Agriculture Lecture 1 - Introduction
Link NOC:Nanotechnology in Agriculture Lecture 2 - What is Nanotechnology
Link NOC:Nanotechnology in Agriculture Lecture 3 - An outline
Link NOC:Nanotechnology in Agriculture Lecture 4 - Agriculture: Natural versus Modern
Link NOC:Nanotechnology in Agriculture Lecture 5 - Modern Agriculture: controlled or out of control
Link NOC:Nanotechnology in Agriculture Lecture 6 - A Restart:Utilising Our Discoveries
Link NOC:Nanotechnology in Agriculture Lecture 7 - Classifying nanomaterials Based on Shape and Geometry
Link NOC:Nanotechnology in Agriculture Lecture 8 - Classifying Nanomaterials Based on Chemical Nature
Link NOC:Nanotechnology in Agriculture Lecture 9 - Physical Approaches to Nanomaterial Synthesis
Link NOC:Nanotechnology in Agriculture Lecture 10 - Biological and Chemical Approaches to Nanomaterial Synthesis
Link NOC:Nanotechnology in Agriculture Lecture 11 - Detailed Physical Techniques - I
Link NOC:Nanotechnology in Agriculture Lecture 12 - Detailed Physical Techniques - II
Link NOC:Nanotechnology in Agriculture Lecture 13 - Detailed Chemical Techniques
Link NOC:Nanotechnology in Agriculture Lecture 14 - Detailed Biological Techniques
Link NOC:Nanotechnology in Agriculture Lecture 15 - Basic Characterisation Techniques of Nanomaterials
Link NOC:Nanotechnology in Agriculture Lecture 16 - Characterisation techniques for physical and chemical surface properties of a material
Link NOC:Nanotechnology in Agriculture Lecture 17 - Nanomaterials in Agriculture
Link NOC:Nanotechnology in Agriculture Lecture 18 - Iron pyrite and seed pre-treatment
Link NOC:Nanotechnology in Agriculture Lecture 19 - nano-Pyrite and its lab trial with chickpea
Link NOC:Nanotechnology in Agriculture Lecture 20 - nano-Pyrite field trial with spinach and its mechanistic details
Link NOC:Nanotechnology in Agriculture Lecture 21 - Mechanistic details of the action of Pyrite nano-particle
Link NOC:Nanotechnology in Agriculture Lecture 22 - Application of Pyrite nano-particle in different crops
Link NOC:Nanotechnology in Agriculture Lecture 23 - Application of different nano-particles in Agriculture - I
Link NOC:Nanotechnology in Agriculture Lecture 24 - Benefits of nanoparticles in Agriculture
Link NOC:Nanotechnology in Agriculture Lecture 25 - Nanotechnology in animal production
Link NOC:Nanotechnology in Agriculture Lecture 26 - Antioxidant nanomaterial in animal production - I
Link NOC:Nanotechnology in Agriculture Lecture 27 - Antioxidant nanomaterial in animal production - II
Link NOC:Nanotechnology in Agriculture Lecture 28 - Antioxidant nanomaterial in animal production - III
Link NOC:Nanotechnology in Agriculture Lecture 29 - Antioxidant nanomaterial in skeletal muscle development - I
Link NOC:Nanotechnology in Agriculture Lecture 30 - Antioxidant nanomaterial in skeletal muscle development - II
Link NOC:Nanotechnology in Agriculture Lecture 31 - Skeletal muscle development and nanomaterial intervention
Link NOC:Nanotechnology in Agriculture Lecture 32 - Fabrication of nano-micro devices to study force generation in muscles
Link NOC:Nanotechnology in Agriculture Lecture 33 - Summarising role of nanomaterials in animal production
Link NOC:Nanotechnology in Agriculture Lecture 34 - Nanomaterials in food processing and preservation - I
Link NOC:Nanotechnology in Agriculture Lecture 35 - Nanomaterials in food processing and preservation - II
Link NOC:Nanotechnology in Agriculture Lecture 36 - Multifunctionality of nanomaterial: water purification, waste disposal, and energy
Link NOC:Nanotechnology in Agriculture Lecture 37 - Futuristic multifunctional, sustainable and green nanomaterial
Link NOC:Nanotechnology in Agriculture Lecture 38 - Case study of Titanium dioxide - I
Link NOC:Nanotechnology in Agriculture Lecture 39 - Case study of Titanium dioxide - II
Link NOC:Nanotechnology in Agriculture Lecture 40 - The future: evolving nano world
Link NOC:Wild Life Ecology Lecture 1 - Introduction to the course
Link NOC:Wild Life Ecology Lecture 2 - A historical overview of Ecology
Link NOC:Wild Life Ecology Lecture 3 - Ecology and Evolution
Link NOC:Wild Life Ecology Lecture 4 - The levels of organisation
Link NOC:Wild Life Ecology Lecture 5 - Species abundance and composition: Biodiversity
Link NOC:Wild Life Ecology Lecture 6 - Biodiversity - II
Link NOC:Wild Life Ecology Lecture 7 - Positive Interactions
Link NOC:Wild Life Ecology Lecture 8 - Negative Interactions
Link NOC:Wild Life Ecology Lecture 9 - Study of Behaviour and Behavioral Ecology
Link NOC:Wild Life Ecology Lecture 10 - Food chains, Food webs and trophic levels
Link NOC:Wild Life Ecology Lecture 11 - Primary Production
Link NOC:Wild Life Ecology Lecture 12 - Nutrient Cycles
Link NOC:Wild Life Ecology Lecture 13 - Population parameters and demographic techniques
Link NOC:Wild Life Ecology Lecture 14 - Population growth and regulation
Link NOC:Wild Life Ecology Lecture 15 - Population studies and applications
Link NOC:Wild Life Ecology Lecture 16 - Community nature and parameters
Link NOC:Wild Life Ecology Lecture 17 - Community changes and ecological succession
Link NOC:Wild Life Ecology Lecture 18 - Community organisation
Link NOC:Wild Life Ecology Lecture 19 - Biography: Analysis of geographic distributions
Link NOC:Wild Life Ecology Lecture 20 - Why are things where they are?
Link NOC:Wild Life Ecology Lecture 21 - Some push and pull factors in greater detail
Link NOC:Wild Life Ecology Lecture 22 - Threats to species
Link NOC:Wild Life Ecology Lecture 23 - In-situ conservation
Link NOC:Wild Life Ecology Lecture 24 - Ex-situ conservation
Link NOC:Wild Life Ecology Lecture 25 - Introduction and impacts
Link NOC:Wild Life Ecology Lecture 26 - Human population growth and food requirements
Link NOC:Wild Life Ecology Lecture 27 - Sustainable development
Link NOC:Wild Life Ecology Lecture 28 - Oil spills
Link NOC:Wild Life Ecology Lecture 29 - Plastic and biodiversity
Link NOC:Wild Life Ecology Lecture 30 - Impacts of climate change
Link NOC:Wild Life Ecology Lecture 31 - Optimum yield problem
Link NOC:Wild Life Ecology Lecture 32 - Biological control
Link NOC:Wild Life Ecology Lecture 33 - Ecotoxicology and pollution management, Restoration ecology
Link NOC:Wild Life Ecology Lecture 34 - Revision
Link NOC:Wild Life Ecology Lecture 35 - Revision
Link NOC:Wild Life Ecology Lecture 36 - Revision
Link NOC:Forests and their Management Lecture 1 - What is a forest ?
Link NOC:Forests and their Management Lecture 2 - Classification of forests
Link NOC:Forests and their Management Lecture 3 - Value of forests
Link NOC:Forests and their Management Lecture 4 - What is Silviculture ?
Link NOC:Forests and their Management Lecture 5 - Plant Growth Factors
Link NOC:Forests and their Management Lecture 6 - Ecological Succession
Link NOC:Forests and their Management Lecture 7 - Soil and Soil Profile
Link NOC:Forests and their Management Lecture 8 - Major Soil Types
Link NOC:Forests and their Management Lecture 9 - Nutrient Cycles
Link NOC:Forests and their Management Lecture 10 - Tree Form
Link NOC:Forests and their Management Lecture 11 - Measurement of Tree attributes - I
Link NOC:Forests and their Management Lecture 12 - Measurement of Tree attributes - II
Link NOC:Forests and their Management Lecture 13 - Classical Tools
Link NOC:Forests and their Management Lecture 14 - Photogrammetry
Link NOC:Forests and their Management Lecture 15 - LiDAR
Link NOC:Forests and their Management Lecture 16 - Kinds of Threats
Link NOC:Forests and their Management Lecture 17 - Forest Fire
Link NOC:Forests and their Management Lecture 18 - Forest Law
Link NOC:Forests and their Management Lecture 19 - Regeneration
Link NOC:Forests and their Management Lecture 20 - Silvicultureal Systems
Link NOC:Forests and their Management Lecture 21 - Clear Felling System
Link NOC:Forests and their Management Lecture 22 - Shelterwood System - I
Link NOC:Forests and their Management Lecture 23 - Shelterwood System - II
Link NOC:Forests and their Management Lecture 24 - Selection System and Irregular Shelterwood System
Link NOC:Forests and their Management Lecture 25 - Logging and Processing
Link NOC:Forests and their Management Lecture 26 - Growing Stock and Increment
Link NOC:Forests and their Management Lecture 27 - Yield and Sustained Yield
Link NOC:Forests and their Management Lecture 28 - Seed Collection and Treatment
Link NOC:Forests and their Management Lecture 29 - Nursery Techniques
Link NOC:Forests and their Management Lecture 30 - Planting and Tending
Link NOC:Forests and their Management Lecture 31 - NTFP
Link NOC:Forests and their Management Lecture 32 - Social Forestry and Tribal Welfare
Link NOC:Forests and their Management Lecture 33 - Conservation of Wild Animals
Link NOC:Forests and their Management Lecture 34 - Revision - Part 1
Link NOC:Forests and their Management Lecture 35 - Revision - Part 2
Link NOC:Forests and their Management Lecture 36 - Revision - Part 3
Link NOC:Conservation Economics Lecture 1 - Introduction to the Course, Making Decisions - I
Link NOC:Conservation Economics Lecture 2 - Making Decisions - II and Interactions - I
Link NOC:Conservation Economics Lecture 3 - Intecractions-II and Working of the Economy
Link NOC:Conservation Economics Lecture 4 - Conservation in the Anthropocene
Link NOC:Conservation Economics Lecture 5 - Human population growth and food requirements
Link NOC:Conservation Economics Lecture 6 - Unsustainable development
Link NOC:Conservation Economics Lecture 7 - Climate change
Link NOC:Conservation Economics Lecture 8 - Plastics
Link NOC:Conservation Economics Lecture 9 - Oil spills and mining
Link NOC:Conservation Economics Lecture 10 - Push and pull factors: Localisation of species
Link NOC:Conservation Economics Lecture 11 - Threats to species
Link NOC:Conservation Economics Lecture 12 - Developmental Hazards and Ecotoxicology
Link NOC:Conservation Economics Lecture 13 - Need to understand controls
Link NOC:Conservation Economics Lecture 14 - Thinking as an Economist
Link NOC:Conservation Economics Lecture 15 - Interdependence and gains from trade
Link NOC:Conservation Economics Lecture 16 - Demand and supply
Link NOC:Conservation Economics Lecture 17 - Elasticity
Link NOC:Conservation Economics Lecture 18 - Government policy
Link NOC:Conservation Economics Lecture 19 - Surplus and market efficiency
Link NOC:Conservation Economics Lecture 20 - Market Efficiency and Cost of Taxation
Link NOC:Conservation Economics Lecture 21 - International Trade
Link NOC:Conservation Economics Lecture 22 - Externalities
Link NOC:Conservation Economics Lecture 23 - Public goods and common resources
Link NOC:Conservation Economics Lecture 24 - The design of the tax system
Link NOC:Conservation Economics Lecture 25 - The Costs of Production
Link NOC:Conservation Economics Lecture 26 - Competition
Link NOC:Conservation Economics Lecture 27 - Monopoly
Link NOC:Conservation Economics Lecture 28 - Markets for factors of production
Link NOC:Conservation Economics Lecture 29 - Earnings and discrimination
Link NOC:Conservation Economics Lecture 30 - Income inequality and poverty
Link NOC:Conservation Economics Lecture 31 - Consumer choice
Link NOC:Conservation Economics Lecture 32 - Asymmetric information, Politics and Behavioural Economics
Link NOC:Conservation Economics Lecture 33 - Valuation of natural resources
Link NOC:Conservation Economics Lecture 34 - Economics of Protected Areas
Link NOC:Conservation Economics Lecture 35 - Economics of Environmental Disasters - 1
Link NOC:Conservation Economics Lecture 36 - Economics of Environmental Disasters - 2
Link NOC:Conservation Geography Lecture 1 - The need for conservation
Link NOC:Conservation Geography Lecture 2 - Geography and conservation
Link NOC:Conservation Geography Lecture 3 - Biogeography
Link NOC:Conservation Geography Lecture 4 - Origin and evolution of the earth
Link NOC:Conservation Geography Lecture 5 - Structure of the earth
Link NOC:Conservation Geography Lecture 6 - Features of the earth
Link NOC:Conservation Geography Lecture 7 - Rocks and minerals
Link NOC:Conservation Geography Lecture 8 - Geomorphology and processes
Link NOC:Conservation Geography Lecture 9 - Evolution of landforms
Link NOC:Conservation Geography Lecture 10 - Structure and composition
Link NOC:Conservation Geography Lecture 11 - Atmospheric circulation and weather
Link NOC:Conservation Geography Lecture 12 - Climate and climate change
Link NOC:Conservation Geography Lecture 13 - Structure and composition
Link NOC:Conservation Geography Lecture 14 - Oceans and water movement
Link NOC:Conservation Geography Lecture 15 - Hydrological cycle
Link NOC:Conservation Geography Lecture 16 - Structure and physiography of India
Link NOC:Conservation Geography Lecture 17 - Climate and habitats of India
Link NOC:Conservation Geography Lecture 18 - Drainage systems
Link NOC:Conservation Geography Lecture 19 - Soil
Link NOC:Conservation Geography Lecture 20 - Life on Earth
Link NOC:Conservation Geography Lecture 21 - Biodiversity
Link NOC:Conservation Geography Lecture 22 - Threats to species
Link NOC:Conservation Geography Lecture 23 - Ex-situ and in-situ conservation
Link NOC:Conservation Geography Lecture 24 - Benefits from conservation
Link NOC:Conservation Geography Lecture 25 - Population and population growth - I
Link NOC:Conservation Geography Lecture 26 - Population and population growth - II
Link NOC:Conservation Geography Lecture 27 - Human development and sustainable development
Link NOC:Conservation Geography Lecture 28 - Resources and Conservation
Link NOC:Conservation Geography Lecture 29 - Water Resources
Link NOC:Conservation Geography Lecture 30 - Mineral and Energy Resources
Link NOC:Conservation Geography Lecture 31 - Economic Geography and Conservation
Link NOC:Conservation Geography Lecture 32 - Trade
Link NOC:Conservation Geography Lecture 33 - Settlements
Link NOC:Conservation Geography Lecture 34 - Special Topics in Geography and Conservation
Link NOC:Conservation Geography Lecture 35 - Disasters
Link NOC:Conservation Geography Lecture 36 - Valuation of Natural Resources
Link BioChemistry I Lecture 1 - Amino Acids - I
Link BioChemistry I Lecture 2 - Amino Acids - II
Link BioChemistry I Lecture 3 - Protein Structure - I
Link BioChemistry I Lecture 4 - Protein structure - II
Link BioChemistry I Lecture 5 - Protein Structure - III
Link BioChemistry I Lecture 6 - Protein Structure - IV
Link BioChemistry I Lecture 7 - Enzymes - I
Link BioChemistry I Lecture 8 - Enzymes - II
Link BioChemistry I Lecture 9 - Enzymes - III
Link BioChemistry I Lecture 10 - Enzymes Mechanisms - I
Link BioChemistry I Lecture 11 - Enzymes Mechanisms - II
Link BioChemistry I Lecture 12 - Myoglobin and Hemoglobin
Link BioChemistry I Lecture 13 - Lipids and Membranes - I
Link BioChemistry I Lecture 14 - Lipids and Membranes - II
Link BioChemistry I Lecture 15 - Membrane Transport
Link BioChemistry I Lecture 16 - Carbohydrates - I
Link BioChemistry I Lecture 17 - Carbohydrates - II
Link BioChemistry I Lecture 18 - Vitamins and Coenzymes - I
Link BioChemistry I Lecture 19 - Vitamins and Coenzymes - II
Link BioChemistry I Lecture 20 - Nucleic Acids - I
Link BioChemistry I Lecture 21 - Nucleic Acids - II
Link BioChemistry I Lecture 22 - Nucleic Acids - III
Link BioChemistry I Lecture 23 - Bioenergetics - I
Link BioChemistry I Lecture 24 - Bioenergetics - II
Link BioChemistry I Lecture 25 - Metabolism - I
Link BioChemistry I Lecture 26 - Metabolism - II
Link BioChemistry I Lecture 27 - Metabolism - III
Link BioChemistry I Lecture 28 - Overview of the Course
Link NOC:Industrial Biotechnology Lecture 1 - Industrial Biotechnology
Link NOC:Industrial Biotechnology Lecture 2 - Development of industrial strain
Link NOC:Industrial Biotechnology Lecture 3 - Medium characteristics and biochemical pathways
Link NOC:Industrial Biotechnology Lecture 4 - Chemical reaction kinetics
Link NOC:Industrial Biotechnology Lecture 5 - Chemical reaction analysis (Continued...)
Link NOC:Industrial Biotechnology Lecture 6 - Different types of reactors
Link NOC:Industrial Biotechnology Lecture 7 - Reactor analysis
Link NOC:Industrial Biotechnology Lecture 8 - Reactor analysis (Continued...)
Link NOC:Industrial Biotechnology Lecture 9 - Stoichiometry of bioprocesses
Link NOC:Industrial Biotechnology Lecture 10 - Stoichiometry of bioprocesses (Continued...)
Link NOC:Industrial Biotechnology Lecture 11 - Enzymatic Reaction Kinetics
Link NOC:Industrial Biotechnology Lecture 12 - Enzymatic Reaction Kinetics (Continued...)
Link NOC:Industrial Biotechnology Lecture 13 - Immobilization Techniques
Link NOC:Industrial Biotechnology Lecture 14 - Life cycle of the microbial cell, Microbial growth kinetics
Link NOC:Industrial Biotechnology Lecture 15 - Life cycle of the microbial cell, Microbial growth kinetics
Link NOC:Industrial Biotechnology Lecture 16 - Life cycle of the microbial cell, Microbial growth kinetics (Continued...)
Link NOC:Industrial Biotechnology Lecture 17 - Overview of the fermenter
Link NOC:Industrial Biotechnology Lecture 18 - Flow diagrams and pumps and valves used in fermentation industries
Link NOC:Industrial Biotechnology Lecture 19 - Upstream processing : Air sterilizer
Link NOC:Industrial Biotechnology Lecture 20 - Upstream processing : Medium sterilizer
Link NOC:Industrial Biotechnology Lecture 21 - Upstream Processing : Medium Sterilizer (Continued...)
Link NOC:Industrial Biotechnology Lecture 22 - Downstream Processing : Solid - Liquid Separators
Link NOC:Industrial Biotechnology Lecture 23 - Downstream Processing : Evaporator, Crystallizer
Link NOC:Industrial Biotechnology Lecture 24 - Downstream Processing : Liquid - Liquid Extraction
Link NOC:Industrial Biotechnology Lecture 25 - Ethanol Fermentation
Link NOC:Industrial Biotechnology Lecture 26 - Ethanol fermentation (Continued...)
Link NOC:Industrial Biotechnology Lecture 27 - Brewing industry
Link NOC:Industrial Biotechnology Lecture 28 - Brewing industry (Continued...)
Link NOC:Industrial Biotechnology Lecture 29 - Wine industry
Link NOC:Industrial Biotechnology Lecture 30 - Vinegar production
Link NOC:Industrial Biotechnology Lecture 31 - Citric acid production
Link NOC:Industrial Biotechnology Lecture 32 - Citric acid production (Continued...)
Link NOC:Industrial Biotechnology Lecture 33 - Citric acid production (Continued...)
Link NOC:Industrial Biotechnology Lecture 34 - Lactic acid production
Link NOC:Industrial Biotechnology Lecture 35 - Lactic acid production (Continued...)
Link NOC:Industrial Biotechnology Lecture 36 - Glutamic Acid Production
Link NOC:Industrial Biotechnology Lecture 37 - Penicillin Production
Link NOC:Industrial Biotechnology Lecture 38 - Penicillin Production (Continued...)
Link NOC:Industrial Biotechnology Lecture 39 - Streptomycin Production
Link NOC:Industrial Biotechnology Lecture 40 - Baker's Yeast fermentation
Link NOC:Industrial Biotechnology Lecture 41 - Baker's Yeast Fermentation (Continued...)
Link NOC:Industrial Biotechnology Lecture 42 - Fodder Yeast Production
Link NOC:Industrial Biotechnology Lecture 43 - Spirulina Production
Link NOC:Industrial Biotechnology Lecture 44 - Alpha Amylase Production
Link NOC:Industrial Biotechnology Lecture 45 - High Fructose Corn Syrup Production
Link NOC:Industrial Biotechnology Lecture 46 - Metal Leaching
Link NOC:Industrial Biotechnology Lecture 47 - Cheese Production
Link NOC:Industrial Biotechnology Lecture 48 - Cheese Production (Continued...)
Link NOC:Industrial Biotechnology Lecture 49 - Biodiesel Production
Link NOC:Industrial Biotechnology Lecture 50 - Butanol Production
Link NOC:Industrial Biotechnology Lecture 51 - Biopesticides
Link NOC:Industrial Biotechnology Lecture 52 - Biopolymer
Link NOC:Industrial Biotechnology Lecture 53 - Hepatitis B Vaccine
Link NOC:Industrial Biotechnology Lecture 54 - Insulin
Link NOC:Industrial Biotechnology Lecture 55 - Biofertilizer
Link NOC:Industrial Biotechnology Lecture 56 - Aerobic Effluent Treatment Process
Link NOC:Industrial Biotechnology Lecture 57 - Anaerobic Effluent Treatment Process : Biomethanation Process
Link NOC:Industrial Biotechnology Lecture 58 - Anaerobic Effluent Treatment Process : Biomethanation Process (Continued...)
Link NOC:Industrial Biotechnology Lecture 59 - 10 m3 Pilot Plant Operation for Biohydrogen Production
Link NOC:Industrial Biotechnology Lecture 60 - Summary and Conclusion
Link NOC:Aspects Of Biochemical Engineering Lecture 1 - Introduction
Link NOC:Aspects Of Biochemical Engineering Lecture 2 - Microbiology - I
Link NOC:Aspects Of Biochemical Engineering Lecture 3 - Microbiology - II
Link NOC:Aspects Of Biochemical Engineering Lecture 4 - Fundamentals of Biochemistry
Link NOC:Aspects Of Biochemical Engineering Lecture 5 - Bioproducts and their market values
Link NOC:Aspects Of Biochemical Engineering Lecture 6 - Stoichiometry of Biochemical Processes - I
Link NOC:Aspects Of Biochemical Engineering Lecture 7 - Stoichiometry of Biochemical Processes - II
Link NOC:Aspects Of Biochemical Engineering Lecture 8 - Stoichiometry of Biochemical Processes - III
Link NOC:Aspects Of Biochemical Engineering Lecture 9 - Reaction Thermodynamics - I
Link NOC:Aspects Of Biochemical Engineering Lecture 10 - Reaction Thermodynamics - II
Link NOC:Aspects Of Biochemical Engineering Lecture 11 - Kinetics of homogeneous chemical reactions - I
Link NOC:Aspects Of Biochemical Engineering Lecture 12 - Kinetics of homogeneous chemical reactions - II
Link NOC:Aspects Of Biochemical Engineering Lecture 13 - Kinetics of homogeneous chemical reactions - III
Link NOC:Aspects Of Biochemical Engineering Lecture 14 - Kinetics of homogeneous chemical reactions - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 15 - Kinetics of homogeneous chemical reactions - V
Link NOC:Aspects Of Biochemical Engineering Lecture 16 - Different types of reactors
Link NOC:Aspects Of Biochemical Engineering Lecture 17 - Reactor analysis - I
Link NOC:Aspects Of Biochemical Engineering Lecture 18 - Reactor analysis - II
Link NOC:Aspects Of Biochemical Engineering Lecture 19 - Reactor analysis - III
Link NOC:Aspects Of Biochemical Engineering Lecture 20 - Reactor analysis - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 21 - Kinetics of enzyme catalyzed reactions using free enzymes - I
Link NOC:Aspects Of Biochemical Engineering Lecture 22 - Kinetics of enzyme catalyzed reactions using free enzymes - II
Link NOC:Aspects Of Biochemical Engineering Lecture 23 - Kinetics of enzyme catalyzed reactions using free enzymes - III
Link NOC:Aspects Of Biochemical Engineering Lecture 24 - Kinetics of enzyme catalyzed reactions using free enzymes - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 25 - Kinetics of enzyme catalyzed reactions using free enzymes - V
Link NOC:Aspects Of Biochemical Engineering Lecture 26 - Kinetics of enzyme catalyzed reactions using free enzymes - VI
Link NOC:Aspects Of Biochemical Engineering Lecture 27 - Immobilization of Enzymes - I
Link NOC:Aspects Of Biochemical Engineering Lecture 28 - Immobilization of Enzymes - II
Link NOC:Aspects Of Biochemical Engineering Lecture 29 - Kinetics of enzyme catalyzed reactions using immobilized enzymes - I
Link NOC:Aspects Of Biochemical Engineering Lecture 30 - Kinetics of enzyme catalyzed reactions using immobilized enzymes - II
Link NOC:Aspects Of Biochemical Engineering Lecture 31 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - I
Link NOC:Aspects Of Biochemical Engineering Lecture 32 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - II
Link NOC:Aspects Of Biochemical Engineering Lecture 33 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - III
Link NOC:Aspects Of Biochemical Engineering Lecture 34 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 35 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - V
Link NOC:Aspects Of Biochemical Engineering Lecture 36 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - VI
Link NOC:Aspects Of Biochemical Engineering Lecture 37 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - VII
Link NOC:Aspects Of Biochemical Engineering Lecture 38 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - VIII
Link NOC:Aspects Of Biochemical Engineering Lecture 39 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - IX
Link NOC:Aspects Of Biochemical Engineering Lecture 40 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - X
Link NOC:Aspects Of Biochemical Engineering Lecture 41 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - XI
Link NOC:Aspects Of Biochemical Engineering Lecture 42 - Design and analysis of activated sludge process - I
Link NOC:Aspects Of Biochemical Engineering Lecture 43 - Design and analysis of activated sludge process - II
Link NOC:Aspects Of Biochemical Engineering Lecture 44 - Design and analysis of anaerobic digestion process
Link NOC:Aspects Of Biochemical Engineering Lecture 45 - Scale up of Bioreactor - I
Link NOC:Aspects Of Biochemical Engineering Lecture 46 - Scale up of Bioreactor - II
Link NOC:Aspects Of Biochemical Engineering Lecture 47 - Transport Phenomenon in Bioprocess - I
Link NOC:Aspects Of Biochemical Engineering Lecture 48 - Transport Phenomenon in Bioprocess - II
Link NOC:Aspects Of Biochemical Engineering Lecture 49 - Transport Phenomenon in Bioprocess - III
Link NOC:Aspects Of Biochemical Engineering Lecture 50 - Transport Phenomenon in Bioprocess - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 51 - Air sterilization - I
Link NOC:Aspects Of Biochemical Engineering Lecture 52 - Air sterilization - II
Link NOC:Aspects Of Biochemical Engineering Lecture 53 - Medium sterilization - I
Link NOC:Aspects Of Biochemical Engineering Lecture 54 - Medium sterilization - II
Link NOC:Aspects Of Biochemical Engineering Lecture 55 - Operation of industrial fermenter and material analysis
Link NOC:Aspects Of Biochemical Engineering Lecture 56 - Process control of the biochemical processes
Link NOC:Aspects Of Biochemical Engineering Lecture 57 - Downstream processing - I
Link NOC:Aspects Of Biochemical Engineering Lecture 58 - Downstream processing - II
Link NOC:Aspects Of Biochemical Engineering Lecture 59 - Economic analysis of the biochemical processes
Link NOC:Aspects Of Biochemical Engineering Lecture 60 - Summary and Conclusion
Link NOC:Biomicrofluidics Lecture 1 - Introduction to Biomicrofluidics
Link NOC:Biomicrofluidics Lecture 2 - Introduction to Biomicrofluidics (Continued...)
Link NOC:Biomicrofluidics Lecture 3 - Engineers' guide to the cell
Link NOC:Biomicrofluidics Lecture 4 - Fluidics in living systems and mechanobiology
Link NOC:Biomicrofluidics Lecture 5 - Pressure Driven Flows
Link NOC:Biomicrofluidics Lecture 6 - Surface tension driven flows
Link NOC:Biomicrofluidics Lecture 7 - Modulating surface tension
Link NOC:Biomicrofluidics Lecture 8 - Lab on a CD
Link NOC:Biomicrofluidics Lecture 9 - Introduction to Electrokinetics - Part I
Link NOC:Biomicrofluidics Lecture 10 - Introduction to Electrokinetics - Part II
Link NOC:Biomicrofluidics Lecture 11 - Microfluidic cell culture - Part I
Link NOC:Biomicrofluidics Lecture 12 - Microfluidic cell culture - Part II
Link NOC:Biomicrofluidics Lecture 13 - On-chip cellular assay techniques - Part I
Link NOC:Biomicrofluidics Lecture 14 - On-chip cellular assay techniques - Part II
Link NOC:Biomicrofluidics Lecture 15 - Microfluidics for understanding biology
Link NOC:Biomicrofluidics Lecture 16 - Organ-on-a-chip
Link NOC:Biomicrofluidics Lecture 17 - Lab-on-a-chip for genetic analysis
Link NOC:Biomicrofluidics Lecture 18 - Microfluidic technology for monoclonal antibody production
Link NOC:Biomicrofluidics Lecture 19 - Microfluidics for Healthcare
Link NOC:Biomicrofluidics Lecture 20 - Microfluidics for Healthcare
Link NOC:Immunology Lecture 1 - Basic Concepts in Immunology
Link NOC:Immunology Lecture 2 - Basic Concepts in Immunology (Continued...)
Link NOC:Immunology Lecture 3 - Basic Concepts in Immunology (Continued...)
Link NOC:Immunology Lecture 4 - Basic Concepts in Immunology (Continued...)
Link NOC:Immunology Lecture 5 - Basic Concepts in Immunology (Continued...)
Link NOC:Immunology Lecture 6 - Innate Immunity
Link NOC:Immunology Lecture 7 - Inflamatory Response
Link NOC:Immunology Lecture 8 - Adaptive Immunity
Link NOC:Immunology Lecture 9 - Adaptive Immunity (Humoral)
Link NOC:Immunology Lecture 10 - Effector Mechanisms
Link NOC:Immunology Lecture 11 - Stracture of antibody
Link NOC:Immunology Lecture 12 - Stracture of antibody and T-Cell Receptors
Link NOC:Immunology Lecture 13 - Generation of diversity (GOD) of lymphocyte antigen receptors (Continued...)
Link NOC:Immunology Lecture 14 - Generation of diversity (GOD) of lymphocyte antigen receptors (Continued...)
Link NOC:Immunology Lecture 15 - Generation of diversity (GOD) of lymphocyte antigen receptors (Continued...)
Link NOC:Immunology Lecture 16 - Generation of diversity (GOD) of lymphocyte antigen receptors (Continued...)
Link NOC:Immunology Lecture 17 - Structural variation in immunoglobulin constant regions and isotype switching
Link NOC:Immunology Lecture 18 - Structural variation in immunoglobulin constant regions and isotype switching (Continued...)
Link NOC:Immunology Lecture 19 - Antigen recognition by T cell : major histocompatibility complex
Link NOC:Immunology Lecture 20 - Antigen recognition by T cell : major histocompatibility complex (Continued...)
Link NOC:Immunology Lecture 21 - Antigen Recognition by T cell : Major Histocompatibility Complex (Continued...)
Link NOC:Immunology Lecture 22 - Antigen Recognition by T cell : Major Histocompatibility Complex (Continued...)
Link NOC:Immunology Lecture 23 - The Generation of α : β T - Cell receptor ligands
Link NOC:Immunology Lecture 24 - The Generation of α : β T - Cell receptor ligands (Continued...)
Link NOC:Immunology Lecture 25 - Summery of Immune system
Link NOC:Immunology Lecture 26 - Tools and Techniques
Link NOC:Immunology Lecture 27 - Tools and Techniques (Continued...)
Link NOC:Immunology Lecture 28 - Tools and Techniques (Continued...)
Link NOC:Immunology Lecture 29 - Tools and Techniques (Continued...)
Link NOC:Immunology Lecture 30 - Flow Cytometry
Link NOC:Immunology Lecture 31 - Development of T Lymphocytes
Link NOC:Immunology Lecture 32 - Development of T Lymphocytes (Continued...)
Link NOC:Immunology Lecture 33 - Development of T Lymphocytes (Continued...)
Link NOC:Immunology Lecture 34 - T Cell Mediated Immunity
Link NOC:Immunology Lecture 35 - T Cell Mediated Immunity (Continued...)
Link NOC:Immunology Lecture 36 - B-Cell Maturation - I
Link NOC:Immunology Lecture 37 - B-Cell Maturation - II
Link NOC:Immunology Lecture 38 - B-Cell Activation
Link NOC:Immunology Lecture 39 - B-Cell Activation and Differentiation
Link NOC:Immunology Lecture 40 - Effector T - Cells
Link NOC:Immunology Lecture 41 - Complement System Overview
Link NOC:Immunology Lecture 42 - Complement System Overview (Continued...)
Link NOC:Immunology Lecture 43 - Complement Biological Consequences
Link NOC:Immunology Lecture 44 - Complement Biological Consequences (Continued...)
Link NOC:Immunology Lecture 45 - Cytokines : Introduction
Link NOC:Immunology Lecture 46 - Cytokines : Introduction (Continued...)
Link NOC:Immunology Lecture 47 - Cytokines in Innate and Adaptive Immunity
Link NOC:Immunology Lecture 48 - Interferons
Link NOC:Immunology Lecture 49 - Hypersensitivity
Link NOC:Immunology Lecture 50 - Hypersensitivity (Continued...)
Link NOC:Immunology Lecture 51 - Autoimmunity
Link NOC:Immunology Lecture 52 - Autoimmunity (Continued...)
Link NOC:Immunology Lecture 53 - Autoimmunity (Continued...)
Link NOC:Immunology Lecture 54 - Transplantation or Graft vs. Host Reaction
Link NOC:Immunology Lecture 55 - Transplantation or Graft vs. Host Reaction (Continued...)
Link NOC:Immunology Lecture 56 - Active and Passive Immunity and Vaccination
Link NOC:Immunology Lecture 57 - Active and Passive Immunity and Vaccination (Continued...)
Link NOC:Immunology Lecture 58 - Active and Passive Immunity and Vaccination (Continued...)
Link NOC:Immunology Lecture 59 - Monoclonal Antibody
Link NOC:Immunology Lecture 60 - Monoclonal Antibody (Continued...)
Link NOC:Metabolic Engineering Lecture 1 - Introduction to Metabolic Engineering
Link NOC:Metabolic Engineering Lecture 2 - Essence of Metabolic Engineering - Part A
Link NOC:Metabolic Engineering Lecture 3 - Essence of Metabolic Engineering - Part B
Link NOC:Metabolic Engineering Lecture 4 - Essence of Metabolic Engineering - Part C
Link NOC:Metabolic Engineering Lecture 5 - Essence of Metabolic Engineering - Part D
Link NOC:Metabolic Engineering Lecture 6 - Review of Cellular Metabolism - Part A
Link NOC:Metabolic Engineering Lecture 7 - Review of Cellular Metabolism - Part B
Link NOC:Metabolic Engineering Lecture 8 - Review of Cellular Metabolism - Part C
Link NOC:Metabolic Engineering Lecture 9 - Review of Cellular Metabolism - Part D
Link NOC:Metabolic Engineering Lecture 10 - Review of Cellular Metabolism - Part E
Link NOC:Metabolic Engineering Lecture 11 - Review of Cellular Metabolism - Part F
Link NOC:Metabolic Engineering Lecture 12 - Introduction to Metabolic Networks
Link NOC:Metabolic Engineering Lecture 13 - Introduction to Systems Biology
Link NOC:Metabolic Engineering Lecture 14 - Regulatory Networks
Link NOC:Metabolic Engineering Lecture 15 - Reconstruction of Metabolic Networks
Link NOC:Metabolic Engineering Lecture 16 - The Stoichiometric Matrix: Representing Reconstructed Network Mathematically
Link NOC:Metabolic Engineering Lecture 17 - Flux Balance Analysis (FBA)
Link NOC:Metabolic Engineering Lecture 18 - Flux Variability Analysis (FVA) and Flux Coupling (FC)
Link NOC:Metabolic Engineering Lecture 19 - Dynamic Flux Balance Analysis (DFBA) and Gene Deletion Algorithms
Link NOC:Metabolic Engineering Lecture 20 - Optimization in MATLAB
Link NOC:Metabolic Engineering Lecture 21 - Robustness Analysis and Phenotypic Phase Planes
Link NOC:Metabolic Engineering Lecture 22 - Flux Sampling, Optknock and Optstrain
Link NOC:Metabolic Engineering Lecture 23 - Extreme Pathways and Elementary modes
Link NOC:Metabolic Engineering Lecture 24 - 13^C Metabolic Flux Analysis (13^C MFA)
Link NOC:Metabolic Engineering Lecture 25 - 13 C Metabolic Flux Analysis (13C MFA)
Link NOC:Metabolic Engineering Lecture 26 - Advancement in 13 C Metabolic Flux Analysis
Link NOC:Metabolic Engineering Lecture 27 - E.coli core metabolic Network Optimization in MATLAB
Link NOC:Metabolic Engineering Lecture 28 - Application of Metabolic Flux Analysis
Link NOC:Metabolic Engineering Lecture 29 - CRISPR-Cas system and its application in metabolic engineering - Part I
Link NOC:Metabolic Engineering Lecture 30 - CRISPR-Cas system and its application in metabolic engineering - Part II
Link NOC:Metabolic Engineering Lecture 31 - CRISPR-Cas system and its application in metabolic engineering - Part III
Link NOC:Metabolic Engineering Lecture 32 - CRISPR-Cas system and its application in metabolic engineering - Part IV
Link NOC:Metabolic Engineering Lecture 33 - Examples of pathway manipulations by metabolic engineering - Biofuels
Link NOC:Metabolic Engineering Lecture 34 - Metabolic engineering for biofuel production - Part A
Link NOC:Metabolic Engineering Lecture 35 - Metabolic engineering for biofuel production - Part B
Link NOC:Metabolic Engineering Lecture 36 - Metabolic engineering for biofuel production - Part C
Link NOC:Metabolic Engineering Lecture 37 - Applications of metabolic engineering in amino acids production
Link NOC:Environmental Chemistry and Microbiology Lecture 1 - Acids, Bases and Salts - Part I
Link NOC:Environmental Chemistry and Microbiology Lecture 2 - Acids, Bases and Salts - Part II
Link NOC:Environmental Chemistry and Microbiology Lecture 3 - Acids, Bases and Salts - Part III
Link NOC:Environmental Chemistry and Microbiology Lecture 4 - Acids, Bases and Salts - Part IV
Link NOC:Environmental Chemistry and Microbiology Lecture 5 - Acids, Bases and Salts - Part V
Link NOC:Environmental Chemistry and Microbiology Lecture 6 - Chemical Equilibrium - I
Link NOC:Environmental Chemistry and Microbiology Lecture 7 - Chemical Equilibrium - II
Link NOC:Environmental Chemistry and Microbiology Lecture 8 - Chemical Equilibrium - III
Link NOC:Environmental Chemistry and Microbiology Lecture 9 - Chemical Equilibrium - IV
Link NOC:Environmental Chemistry and Microbiology Lecture 10 - Chemical Equilibrium - V
Link NOC:Environmental Chemistry and Microbiology Lecture 11 - Chemical Kinetics - I
Link NOC:Environmental Chemistry and Microbiology Lecture 12 - Chemical Kinetics - II
Link NOC:Environmental Chemistry and Microbiology Lecture 13 - Chemical Kinetics - III
Link NOC:Environmental Chemistry and Microbiology Lecture 14 - Chemical Kinetics - IV
Link NOC:Environmental Chemistry and Microbiology Lecture 15 - Chemical Kinetics - V
Link NOC:Environmental Chemistry and Microbiology Lecture 16 - Chemical Kinetics - Reaction Mechanism - Part A
Link NOC:Environmental Chemistry and Microbiology Lecture 17 - Chemical Kinetics - Reaction Mechanism - Part B
Link NOC:Environmental Chemistry and Microbiology Lecture 18 - Chemical Kinetics - Catalysis - Part A
Link NOC:Environmental Chemistry and Microbiology Lecture 19 - Chemical Kinetics - Catalysis - Part B
Link NOC:Environmental Chemistry and Microbiology Lecture 20 - Chemical Kinetics - Catalysis - Part C
Link NOC:Environmental Chemistry and Microbiology Lecture 21 - Nitrogen chemistry - Part A
Link NOC:Environmental Chemistry and Microbiology Lecture 22 - Nitrogen chemistry - Part B
Link NOC:Environmental Chemistry and Microbiology Lecture 23 - Chlorine chemistry and disinfection - Part A
Link NOC:Environmental Chemistry and Microbiology Lecture 24 - Chlorine chemistry and disinfection - Part B
Link NOC:Environmental Chemistry and Microbiology Lecture 25 - Chlorine chemistry and disinfection - Part C
Link NOC:Environmental Chemistry and Microbiology Lecture 26 - Radioactivity - Part A
Link NOC:Environmental Chemistry and Microbiology Lecture 27 - Radioactivity - Part B
Link NOC:Environmental Chemistry and Microbiology Lecture 28 - Radioactivity - Part C
Link NOC:Environmental Chemistry and Microbiology Lecture 29 - Radioactivity - Part D
Link NOC:Environmental Chemistry and Microbiology Lecture 30 - Radioactivity - Part E
Link NOC:Environmental Chemistry and Microbiology Lecture 31 - Introduction - I
Link NOC:Environmental Chemistry and Microbiology Lecture 32 - Introduction - II
Link NOC:Environmental Chemistry and Microbiology Lecture 33 - Overview of microbial life - I
Link NOC:Environmental Chemistry and Microbiology Lecture 34 - Overview of microbial life - II
Link NOC:Environmental Chemistry and Microbiology Lecture 35 - Overview of microbial life - III
Link NOC:Environmental Chemistry and Microbiology Lecture 36 - Cell chemistry - I
Link NOC:Environmental Chemistry and Microbiology Lecture 37 - Cell chemistry - II
Link NOC:Environmental Chemistry and Microbiology Lecture 38 - Cell Biology - I
Link NOC:Environmental Chemistry and Microbiology Lecture 39 - Cell Biology - II
Link NOC:Environmental Chemistry and Microbiology Lecture 40 - Cell Biology - III
Link NOC:Environmental Chemistry and Microbiology Lecture 41 - Cell Biology - IV
Link NOC:Environmental Chemistry and Microbiology Lecture 42 - Microscopy - I
Link NOC:Environmental Chemistry and Microbiology Lecture 43 - Microscopy - II
Link NOC:Environmental Chemistry and Microbiology Lecture 44 - Microbial Metabolism - I
Link NOC:Environmental Chemistry and Microbiology Lecture 45 - Microbial Metabolism - II
Link NOC:Environmental Chemistry and Microbiology Lecture 46 - Microbial Metabolism - III
Link NOC:Environmental Chemistry and Microbiology Lecture 47 - Xenobiotics - I
Link NOC:Environmental Chemistry and Microbiology Lecture 48 - Xenobiotics - II
Link NOC:Environmental Chemistry and Microbiology Lecture 49 - Microbial Growth - I
Link NOC:Environmental Chemistry and Microbiology Lecture 50 - Microbial Growth - II
Link NOC:Environmental Chemistry and Microbiology Lecture 51 - Microbial Growth - III
Link NOC:Environmental Chemistry and Microbiology Lecture 52 - Microbial Growth and Control - I
Link NOC:Environmental Chemistry and Microbiology Lecture 53 - Microbial Growth and Control - II
Link NOC:Environmental Chemistry and Microbiology Lecture 54 - Pathogens and diseases - I
Link NOC:Environmental Chemistry and Microbiology Lecture 55 - Pathogens and diseases - II
Link NOC:Environmental Chemistry and Microbiology Lecture 56 - Metabolic Diversity - I
Link NOC:Environmental Chemistry and Microbiology Lecture 57 - Metabolic Diversity - II
Link NOC:Environmental Chemistry and Microbiology Lecture 58 - Metabolic Diversity - III
Link NOC:Environmental Chemistry and Microbiology Lecture 59 - Metabolic Diversity - IV
Link NOC:Environmental Chemistry and Microbiology Lecture 60 - Metabolic Diversity - V
Link NOC:Environmental Chemistry and Microbiology Lecture 61 - Metabolic Diversity - VI
Link NOC:Environmental Chemistry and Microbiology Lecture 62 - Biogeochemical cycles - I
Link NOC:Environmental Chemistry and Microbiology Lecture 63 - Biogeochemical cycles - II
Link NOC:Environmental Biotechnology Lecture 1 - Introduction of Environmental Biotechnology, Scope and applications of the subject
Link NOC:Environmental Biotechnology Lecture 2 - Introduction of Environmental Biotechnology, Scope and applications of the subject
Link NOC:Environmental Biotechnology Lecture 3 - Ecosystem : Basic concepts of structure and function
Link NOC:Environmental Biotechnology Lecture 4 - Ecosystem : Basic concepts of structure and function (Continued...)
Link NOC:Environmental Biotechnology Lecture 5 - Microbial Ecology
Link NOC:Environmental Biotechnology Lecture 6 - Microbial Ecology (Continued...)
Link NOC:Environmental Biotechnology Lecture 7 - Microbial Ecosystems and Biogeochemical Cycling
Link NOC:Environmental Biotechnology Lecture 8 - Biogeochemical Cycles
Link NOC:Environmental Biotechnology Lecture 9 - Microbial ecology and environmental biotechnology - Part A
Link NOC:Environmental Biotechnology Lecture 10 - Microbial ecology and environmental biotechnology - Part B
Link NOC:Environmental Biotechnology Lecture 11 - Microbial ecology and environmental biotechnology - Part B (Continued...)
Link NOC:Environmental Biotechnology Lecture 12 - Microbial ecology and environmental biotechnology - Part B (Continued...)
Link NOC:Environmental Biotechnology Lecture 13 - Microbial ecology and environmental biotechnology - Part C
Link NOC:Environmental Biotechnology Lecture 14 - Microbial ecology and environmental biotechnology - Part C (Continued...)
Link NOC:Environmental Biotechnology Lecture 15 - Microbial ecology and environmental biotechnology - Part C (Continued...)
Link NOC:Environmental Biotechnology Lecture 16 - Microbial Ecology and Environmental Biotechnology - Part C (Continued...)
Link NOC:Environmental Biotechnology Lecture 17 - Microbiology of Environmental Engineering System
Link NOC:Environmental Biotechnology Lecture 18 - Microbiology of Environmental Engineering System
Link NOC:Environmental Biotechnology Lecture 19 - Microbiology of Environmental Engineering System
Link NOC:Environmental Biotechnology Lecture 20 - Microbiology of Environmental Engineering System (Continued...)
Link NOC:Environmental Biotechnology Lecture 21 - Physiological Ecology and Resource Exploitation by Microorganisms
Link NOC:Environmental Biotechnology Lecture 22 - Physiological ecology and Resource Exploitation by Microorganisms (Continued...)
Link NOC:Environmental Biotechnology Lecture 23 - Physiological ecology and Resource Exploitation by Microorganisms (Continued...)
Link NOC:Environmental Biotechnology Lecture 24 - Physiological ecology and Resource Exploitation by Microorganisms (Continued...)
Link NOC:Environmental Biotechnology Lecture 25 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology
Link NOC:Environmental Biotechnology Lecture 26 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 27 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 28 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 29 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 30 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 31 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 32 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 33 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 34 - Methods in Microbial Ecology with Relevance to Environmental Biotechnology (Continued...)
Link NOC:Environmental Biotechnology Lecture 35 - Bioremediation
Link NOC:Environmental Biotechnology Lecture 36 - Bioremediation (Continued...)
Link NOC:Environmental Biotechnology Lecture 37 - Bioremediation (Continued...)
Link NOC:Environmental Biotechnology Lecture 38 - Bioremediation (Continued...)
Link NOC:Environmental Biotechnology Lecture 39 - Biodegradation
Link NOC:Environmental Biotechnology Lecture 40 - Biodegradation
Link NOC:Environmental Biotechnology Lecture 41 - Biodegradation (Continued...)
Link NOC:Environmental Biotechnology Lecture 42 - Microbial Interactions with Heavy Metals and Metalloids
Link NOC:Environmental Biotechnology Lecture 43 - Microbial Interactions with Heavy Metals and Metalloids - Bioremediation
Link NOC:Environmental Biotechnology Lecture 44 - Biohydrometallurgy
Link NOC:Environmental Biotechnology Lecture 45 - Enhanced biological phosphorus removal process (EBPR)
Link NOC:Environmental Biotechnology Lecture 46 - Biological nitrogen removal
Link NOC:Environmental Biotechnology Lecture 47 - Microbially Enhanced Oil Recovery (MEOR)
Link NOC:Environmental Biotechnology Lecture 48 - Emerging Pollutants
Link NOC:Environmental Biotechnology Lecture 49 - Carbon capture, Carbon Sequestration and Utilization
Link NOC:Environmental Biotechnology Lecture 50 - Bioenergy and Environmental Biotechnology
Link NOC:Environmental Biotechnology Lecture 51 - Bioremediation case studies
Link NOC:Environmental Biotechnology Lecture 52 - Bioremediation case studies (Continued...)
Link NOC:Fundamentals of Protein Chemistry Lecture 1 - Amino Acids - I
Link NOC:Fundamentals of Protein Chemistry Lecture 2 - Amino Acids - II
Link NOC:Fundamentals of Protein Chemistry Lecture 3 - Amino Acids - III
Link NOC:Fundamentals of Protein Chemistry Lecture 4 - The Peptide Bond
Link NOC:Fundamentals of Protein Chemistry Lecture 5 - Discussion Class
Link NOC:Fundamentals of Protein Chemistry Lecture 6 - Primary Structure
Link NOC:Fundamentals of Protein Chemistry Lecture 7 - Secondary Structure
Link NOC:Fundamentals of Protein Chemistry Lecture 8 - Tertiary and Quaternary Structure
Link NOC:Fundamentals of Protein Chemistry Lecture 9 - Protein Interactions
Link NOC:Fundamentals of Protein Chemistry Lecture 10 - Discussion Class
Link NOC:Fundamentals of Protein Chemistry Lecture 11 - Protein folding and structure
Link NOC:Fundamentals of Protein Chemistry Lecture 12 - Thermodynamics of Protein Folding
Link NOC:Fundamentals of Protein Chemistry Lecture 13 - Protein Structure Methods
Link NOC:Fundamentals of Protein Chemistry Lecture 14 - Protein Denaturation
Link NOC:Fundamentals of Protein Chemistry Lecture 15 - Discussion Class
Link NOC:Fundamentals of Protein Chemistry Lecture 16 - Protein Isolation Methods
Link NOC:Fundamentals of Protein Chemistry Lecture 17 - Protein Purification
Link NOC:Fundamentals of Protein Chemistry Lecture 18 - Biophysical Methods - I
Link NOC:Fundamentals of Protein Chemistry Lecture 19 - Biophysical Methods - II
Link NOC:Fundamentals of Protein Chemistry Lecture 20 - Biophysical Methods - III
Link NOC:Fundamentals of Protein Chemistry Lecture 21 - Types of Protein ligand interactions
Link NOC:Fundamentals of Protein Chemistry Lecture 22 - Kinetics and Thermodynamics of protein-ligand binding
Link NOC:Fundamentals of Protein Chemistry Lecture 23 - Experimental methods in protein ligand interactions
Link NOC:Fundamentals of Protein Chemistry Lecture 24 - Protein ligand docking
Link NOC:Fundamentals of Protein Chemistry Lecture 25 - Discussion class
Link NOC:Fundamentals of Protein Chemistry Lecture 26 - Enzymes I - Classification
Link NOC:Fundamentals of Protein Chemistry Lecture 27 - Enzymes - II
Link NOC:Fundamentals of Protein Chemistry Lecture 28 - Enzyme Mechanisms - I
Link NOC:Fundamentals of Protein Chemistry Lecture 29 - Enzyme Mechanisms - II
Link NOC:Fundamentals of Protein Chemistry Lecture 30 - Enzyme mechanisms - III
Link NOC:Fundamentals of Protein Chemistry Lecture 31 - Enzyme Kinetics - I
Link NOC:Fundamentals of Protein Chemistry Lecture 32 - Enzyme Kinetics - II
Link NOC:Fundamentals of Protein Chemistry Lecture 33 - Enzyme Inhibition - I
Link NOC:Fundamentals of Protein Chemistry Lecture 34 - Enzyme Inhibition - II
Link NOC:Fundamentals of Protein Chemistry Lecture 35 - Discussion class
Link NOC:Fundamentals of Protein Chemistry Lecture 36 - Motor Proteins - I
Link NOC:Fundamentals of Protein Chemistry Lecture 37 - Motor Proteins - II
Link NOC:Fundamentals of Protein Chemistry Lecture 38 - Metalloproteins - I
Link NOC:Fundamentals of Protein Chemistry Lecture 39 - Metalloproteins - II
Link NOC:Fundamentals of Protein Chemistry Lecture 40 - Myoglobin and Hemoglobin
Link NOC:Fundamentals of Protein Chemistry Lecture 41 - Membrane Proteins - I
Link NOC:Fundamentals of Protein Chemistry Lecture 42 - Membrane proteins - II
Link NOC:Fundamentals of Protein Chemistry Lecture 43 - Membrane Transport - I
Link NOC:Fundamentals of Protein Chemistry Lecture 44 - Membrane Transport - II
Link NOC:Fundamentals of Protein Chemistry Lecture 45 - Electron Transport Chain
Link NOC:Fundamentals of Protein Chemistry Lecture 46 - Protein Carbohydrate Interactions - I
Link NOC:Fundamentals of Protein Chemistry Lecture 47 - Protein Carbohydrate Interactions - II
Link NOC:Fundamentals of Protein Chemistry Lecture 48 - Protein Nucleic Acid Interactions - I
Link NOC:Fundamentals of Protein Chemistry Lecture 49 - Protein Nucleic Acid Interactions - II
Link NOC:Fundamentals of Protein Chemistry Lecture 50 - Protein Nucleic Acid Interactions - III
Link NOC:Fundamentals of Protein Chemistry Lecture 51 - Protein Protein Interactions - I
Link NOC:Fundamentals of Protein Chemistry Lecture 52 - Protein Protein Interactions - II
Link NOC:Fundamentals of Protein Chemistry Lecture 53 - Protein Peptide Interactions
Link NOC:Fundamentals of Protein Chemistry Lecture 54 - Chaperone proteins
Link NOC:Fundamentals of Protein Chemistry Lecture 55 - Protein Nanoparticle Interactions
Link NOC:Fundamentals of Protein Chemistry Lecture 56 - Oxidative stress in Proteins
Link NOC:Fundamentals of Protein Chemistry Lecture 57 - Enzyme action and Proteolytic cleavage
Link NOC:Fundamentals of Protein Chemistry Lecture 58 - Intrinsically disordered proteins
Link NOC:Fundamentals of Protein Chemistry Lecture 59 - Viral proteins
Link NOC:Fundamentals of Protein Chemistry Lecture 60 - Overview of Course
Link NOC:Introduction to Biomedical Imaging Systems Lecture 1 - Introduction - 1
Link NOC:Introduction to Biomedical Imaging Systems Lecture 2 - Introduction - 2
Link NOC:Introduction to Biomedical Imaging Systems Lecture 3 - Signals and Systems Overview
Link NOC:Introduction to Biomedical Imaging Systems Lecture 4 - Important Signals
Link NOC:Introduction to Biomedical Imaging Systems Lecture 5 - System
Link NOC:Introduction to Biomedical Imaging Systems Lecture 6 - LSI Systems
Link NOC:Introduction to Biomedical Imaging Systems Lecture 7 - Image Quality
Link NOC:Introduction to Biomedical Imaging Systems Lecture 8 - Local Contrast
Link NOC:Introduction to Biomedical Imaging Systems Lecture 9 - Blurring and Noise
Link NOC:Introduction to Biomedical Imaging Systems Lecture 10 - Physics of Radiography
Link NOC:Introduction to Biomedical Imaging Systems Lecture 11 - Types of Ionizing Radiations
Link NOC:Introduction to Biomedical Imaging Systems Lecture 12 - EM Radiation
Link NOC:Introduction to Biomedical Imaging Systems Lecture 13 - Attenuation Models
Link NOC:Introduction to Biomedical Imaging Systems Lecture 14 - Radiation Dosimetry
Link NOC:Introduction to Biomedical Imaging Systems Lecture 15 - PR_Instument
Link NOC:Introduction to Biomedical Imaging Systems Lecture 16 - PR_Instru_CA
Link NOC:Introduction to Biomedical Imaging Systems Lecture 17 - PR_Image_formation
Link NOC:Introduction to Biomedical Imaging Systems Lecture 18 - Imaging Equation_updated
Link NOC:Introduction to Biomedical Imaging Systems Lecture 19 - Film screen_Optical Density
Link NOC:Introduction to Biomedical Imaging Systems Lecture 20 - PR_Image Quality
Link NOC:Introduction to Biomedical Imaging Systems Lecture 21 - CT_Intsru
Link NOC:Introduction to Biomedical Imaging Systems Lecture 22 - CT_Instru_finish
Link NOC:Introduction to Biomedical Imaging Systems Lecture 23 - CT Back projection
Link NOC:Introduction to Biomedical Imaging Systems Lecture 24 - CT_BP_finish
Link NOC:Introduction to Biomedical Imaging Systems Lecture 25 - Fan beam_IQ
Link NOC:Introduction to Biomedical Imaging Systems Lecture 26 - CT_IQ_Artifact
Link NOC:Introduction to Biomedical Imaging Systems Lecture 27 - Nuclear Med_Phys
Link NOC:Introduction to Biomedical Imaging Systems Lecture 28 - Nuclear_Med_Radiotracers
Link NOC:Introduction to Biomedical Imaging Systems Lecture 29 - Planar_Scintigraphy_Instru
Link NOC:Introduction to Biomedical Imaging Systems Lecture 30 - Planar_Scintigraphy_Im and IQ
Link NOC:Introduction to Biomedical Imaging Systems Lecture 31 - Spect_Pet
Link NOC:Introduction to Biomedical Imaging Systems Lecture 32 - Ultrasound_Intro_Phys
Link NOC:Introduction to Biomedical Imaging Systems Lecture 33 - Ultrasound Phys_Interactions
Link NOC:Introduction to Biomedical Imaging Systems Lecture 34 - US doppler and Instrumentation
Link NOC:Introduction to Biomedical Imaging Systems Lecture 35 - US_Beampattern
Link NOC:Introduction to Biomedical Imaging Systems Lecture 36 - Approximations
Link NOC:Introduction to Biomedical Imaging Systems Lecture 37 - US_Imaging Equation_modes
Link NOC:Introduction to Biomedical Imaging Systems Lecture 38 - Parameters of interest
Link NOC:Introduction to Biomedical Imaging Systems Lecture 39 - Beam Steering : Phased Array
Link NOC:Introduction to Biomedical Imaging Systems Lecture 40 - MRI_Intro_S1-S9
Link NOC:Introduction to Biomedical Imaging Systems Lecture 41 - MRI_Phys_S10-S16
Link NOC:Introduction to Biomedical Imaging Systems Lecture 42 - MRI_Phys_S17-S20
Link NOC:Introduction to Biomedical Imaging Systems Lecture 43 - MRI_Phys_S21-S28
Link NOC:Introduction to Biomedical Imaging Systems Lecture 44 - MRI_Phys_S29-S39
Link NOC:Introduction to Biomedical Imaging Systems Lecture 45 - MRI_Phys_S40-S44
Link NOC:Introduction to Biomedical Imaging Systems Lecture 46 - MRI_Phys_S45_S52
Link NOC:Introduction to Biomedical Imaging Systems Lecture 47 - MRI_Instru_S1_S16
Link NOC:Introduction to Biomedical Imaging Systems Lecture 48 - MRI_Instru_s17_s26
Link NOC:Introduction to Biomedical Imaging Systems Lecture 49 - MRI_slice sel_S27_S41
Link NOC:Introduction to Biomedical Imaging Systems Lecture 50 - MRI_Freq_Encode_S42_S60
Link NOC:Introduction to Biomedical Imaging Systems Lecture 51 - MRI_DAQ_S61_S69
Link NOC:Introduction to Biomedical Imaging Systems Lecture 52 - MRI_RECON_S70_S82
Link NOC:Introduction to Biomedical Imaging Systems Lecture 53 - MRI_IQ_S83_S96
Link Downstream Processing Lecture 1 - Introduction
Link Downstream Processing Lecture 2 - Mass Balance, Heat Balance, Flow sheet
Link Downstream Processing Lecture 3 - Costing
Link Downstream Processing Lecture 4 - Costing (Continued...) Physical and Chemical Principles in Down Stream
Link Downstream Processing Lecture 5 - Problems in Mass Balance, Flow sheet
Link Downstream Processing Lecture 6 - Cell Breakage
Link Downstream Processing Lecture 7 - Cell Breakage (Continued...)
Link Downstream Processing Lecture 8 - Solid Liquid Separation
Link Downstream Processing Lecture 9 - Solid Liquid Separation (Continued...)
Link Downstream Processing Lecture 10 - Solid Liquid Separation - Problems
Link Downstream Processing Lecture 11 - Pre-Treatment and Filters
Link Downstream Processing Lecture 12 - Adsorption
Link Downstream Processing Lecture 13 - Adsorption (Continued...)
Link Downstream Processing Lecture 14 - Adsorption (Continued...)
Link Downstream Processing Lecture 15 - Adsorption (Continued...)
Link Downstream Processing Lecture 16 - Liquid Liquid Extraction
Link Downstream Processing Lecture 17 - Liquid Liquid Extraction (Continued...)
Link Downstream Processing Lecture 18 - Liquid Liquid Extraction (Continued...)
Link Downstream Processing Lecture 19 - Liquid Liquid Extraction (Continued...)
Link Downstream Processing Lecture 20 - Reversed Micellar and Aqueous Two Phase Extraction
Link Downstream Processing Lecture 21 - Membranes
Link Downstream Processing Lecture 22 - Membranes (Continued...)
Link Downstream Processing Lecture 23 - Membranes (Continued...)
Link Downstream Processing Lecture 24 - Membranes (Continued...)
Link Downstream Processing Lecture 25 - Precipitation
Link Downstream Processing Lecture 26 - Chromatography
Link Downstream Processing Lecture 27 - Chromatography (Continued...)
Link Downstream Processing Lecture 28 - Chromatography (Continued...)
Link Downstream Processing Lecture 29 - Chromatography (Continued...)
Link Downstream Processing Lecture 30 - Chromatography (Continued...)
Link Downstream Processing Lecture 31 - Chromatography (Continued...)
Link Downstream Processing Lecture 32 - Chromatography (Continued...)
Link Downstream Processing Lecture 33 - HPLC
Link Downstream Processing Lecture 34 - HPLC
Link Downstream Processing Lecture 35 - Crystallisation
Link Downstream Processing Lecture 36 - Drying
Link Downstream Processing Lecture 37 - Drying and Distillation
Link Downstream Processing Lecture 38 - Stabilisation, Utilities and Other Auxiliary Processes And Absorption
Link Downstream Processing Lecture 39 - Absorption, Electrophoresis/SDS PAGE
Link Downstream Processing Lecture 40 - Future Trends, Summary of Course
Link Thermodynamics Lecture 1 - Introduction and Review
Link Thermodynamics Lecture 2 - Need for Analysis Additional Thermodynamic Functions State and Path Variables
Link Thermodynamics Lecture 3 - Equations for a Closed system Chemical Potential Concept Gibbs-Duhem Equation
Link Thermodynamics Lecture 4 - Maxwell’s relations
Link Thermodynamics Lecture 5 - Inter-Relationships between Thermodynamic Variables
Link Thermodynamics Lecture 6 - Some Useful Mathematical Manipulations
Link Thermodynamics Lecture 7 - Thermodynamic Relations for a Closed System with 1 mole of a pure Substances
Link Thermodynamics Lecture 8 - Maximum Work,Lost Work Review of Closed Systems
Link Thermodynamics Lecture 9 - Open Systems
Link Thermodynamics Lecture 10 - Equations of State - Virial Equations
Link Thermodynamics Lecture 11 - Equations of State - Cubic Equations
Link Thermodynamics Lecture 12 - Volume Estimation
Link Thermodynamics Lecture 13 - Volume Estimation (Continued...) Generalized correlations
Link Thermodynamics Lecture 14 - Generalized correlations (Continued...) Residual Properties
Link Thermodynamics Lecture 15 - Residual Properties (Continued...)
Link Thermodynamics Lecture 16 - Generalized Correlations and Residual Properties
Link Thermodynamics Lecture 17 - Fugacity Coefficient Estimation
Link Thermodynamics Lecture 18 - Review of Module 3
Link Thermodynamics Lecture 19 - Learning Aspects Chemical Potential Formulations
Link Thermodynamics Lecture 20 - Lewis and Randall rule partial Molar Properties
Link Thermodynamics Lecture 21 - Partial Molar Property Estimation from Mixing Experiments
Link Thermodynamics Lecture 22 - Partial Molar Property Estimation (Continued...) Excess Property
Link Thermodynamics Lecture 23 - Activity Coefficient from Excess Property
Link Thermodynamics Lecture 24 - Activity Coefficient from Excess Property (Continued...)
Link Thermodynamics Lecture 25 - Activity Coefficient from Excess Property (Continued...) Models for Activity Coefficient in Binary Systems
Link Thermodynamics Lecture 26 - Models for Activity Coefficient in Binary Systems (Continued...)
Link Thermodynamics Lecture 27 - Review of Module 4
Link Thermodynamics Lecture 28 - Criteria for Phase Equilibrium Phase Rule for Non-reacting Biosystems
Link Thermodynamics Lecture 29 - Clausius - Clayperon Equation
Link Thermodynamics Lecture 30 - Clausius - Clayperon Equation (Continued...) vapour-Liquid Equilibrium
Link Thermodynamics Lecture 31 - Vapour-Liquid Equilibrium (Continued...) Estimation of Fugacity coefficient from Equilibrium P-V-T Data
Link Thermodynamics Lecture 32 - Liquid/Liquid and Solid/Liquid Equilibria
Link Thermodynamics Lecture 33 - Review of Module 5
Link Thermodynamics Lecture 34 - Criteria for Bio-reaction Equilibria
Link Thermodynamics Lecture 35 - Phase rule for Reacting Biosystems Equilibrium constants
Link Thermodynamics Lecture 36 - Effect of Temperature and Pressure on the Equilibrium constants
Link Thermodynamics Lecture 37 - Reaction in Liquid or Solid Phases
Link Thermodynamics Lecture 38 - Free energy Changes for some Bioreactions
Link Thermodynamics Lecture 39 - Electrolytes
Link Thermodynamics Lecture 40 - Course Review
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 1 - Introduction
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 2 - Mass balance, Heat Balance, Flow sheet
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 3 - Costing
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 4 - Cell Breakage
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 5 - Solid Liquid Separation
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 6 - Pre-treatment and Filters/centrifuge
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 7 - Liquid-Liquid Extraction
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 8 - Liquid-Liquid extraction (Continued...)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 9 - Adsorption
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 10 - Reversed micellar and aqueous two phase extraction
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 11 - Membranes
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 12 - Membranes (Continued...)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 13 - Product stabilization, Drying, Lyophilisation
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 14 - Precipitation and crystallization
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 15 - Electrophoresis / SDS PAGE
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 16 - Chromatography
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 17 - Chromatography (Continued...1)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 18 - Chromatography (Continued...2)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 19 - Chromatography (Continued...3)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 20 - Future trends, Other downstream operations/Summary of the course
Link NOC:Biostatistics and Design of Experiments Lecture 1 - Introduction
Link NOC:Biostatistics and Design of Experiments Lecture 2 - Experimental Design Strategy
Link NOC:Biostatistics and Design of Experiments Lecture 3 - Data types : Binomial distribution
Link NOC:Biostatistics and Design of Experiments Lecture 4 - Poisson Distribution
Link NOC:Biostatistics and Design of Experiments Lecture 5 - Normal Distribution
Link NOC:Biostatistics and Design of Experiments Lecture 6 - Standardized Normal Distribution / t-distribution
Link NOC:Biostatistics and Design of Experiments Lecture 7 - t-distribution/confidence interval
Link NOC:Biostatistics and Design of Experiments Lecture 8 - Statistical tests
Link NOC:Biostatistics and Design of Experiments Lecture 9 - t-Test
Link NOC:Biostatistics and Design of Experiments Lecture 10 - t-Tests
Link NOC:Biostatistics and Design of Experiments Lecture 11 - t-test
Link NOC:Biostatistics and Design of Experiments Lecture 12 - F-tests
Link NOC:Biostatistics and Design of Experiments Lecture 13 - F-tests
Link NOC:Biostatistics and Design of Experiments Lecture 14 - ANOVA
Link NOC:Biostatistics and Design of Experiments Lecture 15 - ANOVA
Link NOC:Biostatistics and Design of Experiments Lecture 16 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 17 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 18 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 19 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 20 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 21 - Normality test / Odds ratio
Link NOC:Biostatistics and Design of Experiments Lecture 22 - Chi square distribution
Link NOC:Biostatistics and Design of Experiments Lecture 23 - Chi square distribution / test
Link NOC:Biostatistics and Design of Experiments Lecture 24 - Chi square test
Link NOC:Biostatistics and Design of Experiments Lecture 25 - Chi square test and Weibull Distribution
Link NOC:Biostatistics and Design of Experiments Lecture 26 - Weibull Distribution
Link NOC:Biostatistics and Design of Experiments Lecture 27 - Weibull distribution.
Link NOC:Biostatistics and Design of Experiments Lecture 28 - Non-parametric test
Link NOC:Biostatistics and Design of Experiments Lecture 29 - Non parametric test/homogeneity of variance / beta distribution
Link NOC:Biostatistics and Design of Experiments Lecture 30 - Exponential / hypergeometric distributions
Link NOC:Biostatistics and Design of Experiments Lecture 31 - Hypergeometric / Log norma distribution
Link NOC:Biostatistics and Design of Experiments Lecture 32 - Design of experiments (DOE) - Introduction
Link NOC:Biostatistics and Design of Experiments Lecture 33 - Factorial Design
Link NOC:Biostatistics and Design of Experiments Lecture 34 - Full factorial design
Link NOC:Biostatistics and Design of Experiments Lecture 35 - Fractional factorial design
Link NOC:Biostatistics and Design of Experiments Lecture 36 - Other designs
Link NOC:Biostatistics and Design of Experiments Lecture 37 - Second order designs
Link NOC:Biostatistics and Design of Experiments Lecture 38 - Second order design
Link NOC:Biostatistics and Design of Experiments Lecture 39 - Regression analysis
Link NOC:Biostatistics and Design of Experiments Lecture 40 - Control charts
Link NOC:Bioreactors Lecture 1 - Introduction
Link NOC:Bioreactors Lecture 2 - Sterilization
Link NOC:Bioreactors Lecture 3 - Solution to PP 1.1
Link NOC:Bioreactors Lecture 4 - Some important concepts
Link NOC:Bioreactors Lecture 5 - Enzyme bioreactors, enzyme kinetics
Link NOC:Bioreactors Lecture 6 - Solution to PP 2.1
Link NOC:Bioreactors Lecture 7 - Inhibited enzyme kinetics
Link NOC:Bioreactors Lecture 8 - Solution to PP 2.2
Link NOC:Bioreactors Lecture 9 - Measurement principles and methods
Link NOC:Bioreactors Lecture 10 - Batch growth kinetics
Link NOC:Bioreactors Lecture 11 - Solution to PP 3.1
Link NOC:Bioreactors Lecture 12 - Bioreactor analysis: chemostat and fed-batch
Link NOC:Bioreactors Lecture 13 - Solution to PP 3.2
Link NOC:Bioreactors Lecture 14 - Bioreactor environment parameters
Link NOC:Bioreactors Lecture 15 - Bioreactor env. par. (DO)
Link NOC:Bioreactors Lecture 16 - Solution to PP 4.1
Link NOC:Bioreactors Lecture 17 - Shear stress, scale-up, scale-down
Link NOC:Bioreactors Lecture 18 - Cell view: stoichiometry; degree of reductance
Link NOC:Bioreactors Lecture 19 - Solution to PP 5.1
Link NOC:Bioreactors Lecture 20 - Culture status, metabolic flux analysis
Link NOC:Bioreactors Lecture 21 - Course summary
Link NOC:Medical Biomaterials Lecture 1 - Introduction to Biomaterials
Link NOC:Medical Biomaterials Lecture 2 - Background history
Link NOC:Medical Biomaterials Lecture 3 - History
Link NOC:Medical Biomaterials Lecture 4 - Properties - Mechanical and Physico-chemical
Link NOC:Medical Biomaterials Lecture 5 - Properties - Mechanical and Physico-chemical
Link NOC:Medical Biomaterials Lecture 6 - Mechanical properties
Link NOC:Medical Biomaterials Lecture 7 - Mechanical Properties (Continued...)
Link NOC:Medical Biomaterials Lecture 8 - Resorbability, biodegradation
Link NOC:Medical Biomaterials Lecture 9 - Resorbability, biodegradation (Continued...)
Link NOC:Medical Biomaterials Lecture 10 - Biofilm
Link NOC:Medical Biomaterials Lecture 11 - Biofilm (Continued...)
Link NOC:Medical Biomaterials Lecture 12 - Biofilm (Continued...)
Link NOC:Medical Biomaterials Lecture 13 - Biofilm (Continued...)
Link NOC:Medical Biomaterials Lecture 14 - Material characterization - Analytical instruments
Link NOC:Medical Biomaterials Lecture 15 - Analytical instruments
Link NOC:Medical Biomaterials Lecture 16 - Analytical instruments (Continued...)
Link NOC:Medical Biomaterials Lecture 17 - Analytical instruments (Continued...)
Link NOC:Medical Biomaterials Lecture 18 - Biological responses, compatibility, cytotoxicity
Link NOC:Medical Biomaterials Lecture 19 - Biological Responses
Link NOC:Medical Biomaterials Lecture 20 - Cell-biomaterial interaction
Link NOC:Medical Biomaterials Lecture 21 - Animal trials (in vivo)
Link NOC:Medical Biomaterials Lecture 22 - Animal trials
Link NOC:Medical Biomaterials Lecture 23 - Metals-types, classifications, applications
Link NOC:Medical Biomaterials Lecture 24 - Metals - properties
Link NOC:Medical Biomaterials Lecture 25 - Metals - properties (Continued...)
Link NOC:Medical Biomaterials Lecture 26 - Metals - properties (Continued...)
Link NOC:Medical Biomaterials Lecture 27 - Metals
Link NOC:Medical Biomaterials Lecture 28 - Polymers-types, classifications, applications
Link NOC:Medical Biomaterials Lecture 29 - Polymers
Link NOC:Medical Biomaterials Lecture 30 - Polymers (Continued...)
Link NOC:Medical Biomaterials Lecture 31 - Polymer blends
Link NOC:Medical Biomaterials Lecture 32 - Natural biopolymers
Link NOC:Medical Biomaterials Lecture 33 - Natural biopolymers - (Continued...)
Link NOC:Medical Biomaterials Lecture 34 - Biopolymers- proteins / hydrogels
Link NOC:Medical Biomaterials Lecture 35 - Hydrogels
Link NOC:Medical Biomaterials Lecture 36 - Experiments
Link NOC:Medical Biomaterials Lecture 37 - surface modification-Demonstration
Link NOC:Medical Biomaterials Lecture 38 - Ceramics
Link NOC:Medical Biomaterials Lecture 39 - Cardiovascular and ocular biomaterials
Link NOC:Medical Biomaterials Lecture 40 - Sterilisation/Device failure
Link NOC:BioInformatics - Algorithms and Applications Lecture 1 - Concepts and importance of Bioinformatics
Link NOC:BioInformatics - Algorithms and Applications Lecture 2 - Complexities in biological systems
Link NOC:BioInformatics - Algorithms and Applications Lecture 3 - DNA sequence analysis
Link NOC:BioInformatics - Algorithms and Applications Lecture 4 - Sequence based parameters
Link NOC:BioInformatics - Algorithms and Applications Lecture 5 - Database
Link NOC:BioInformatics - Algorithms and Applications Lecture 6 - Database categories
Link NOC:BioInformatics - Algorithms and Applications Lecture 7 - Protein structure and function - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 8 - Protein structure and function - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 9 - Protein sequence databases - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 10 - Protein sequence databases - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 11 - Pairwise alignment - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 12 - Pairwise alignment - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 13 - Uniprot Demo
Link NOC:BioInformatics - Algorithms and Applications Lecture 14 - Sequence alignment - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 15 - Sequence alignment - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 16 - Sequence alignment: Online resources - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 17 - Sequence alignment: Online resources - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 18 - Conservation score - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 19 - Conservation score - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 20 - Blast Demo
Link NOC:BioInformatics - Algorithms and Applications Lecture 21 - Phylogenetic trees - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 22 - Phylogenetic trees - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 23 - Protein sequence analysis - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 24 - Protein sequence analysis - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 25 - Hydrophobicity profiles
Link NOC:BioInformatics - Algorithms and Applications Lecture 26 - Patterns and PSSM profiles
Link NOC:BioInformatics - Algorithms and Applications Lecture 27 - Construction of Non-redundant datasets - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 28 - Non-redundant datasets - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 29 - Protein secondary structure
Link NOC:BioInformatics - Algorithms and Applications Lecture 30 - Secondary structure prediction - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 31 - Secondary structure prediction - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 32 - Secondary structure prediction - III
Link NOC:BioInformatics - Algorithms and Applications Lecture 33 - Protein tertiary structure - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 34 - Protein tertiary structure - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 35 - Protein structure analysis - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 36 - Protein structure analysis - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 37 - Protein structure analysis - III
Link NOC:BioInformatics - Algorithms and Applications Lecture 38 - Demo: PDB or Pymol or PDBParam
Link NOC:BioInformatics - Algorithms and Applications Lecture 39 - Protein structure analysis - IV
Link NOC:BioInformatics - Algorithms and Applications Lecture 40 - Protein structure prediction - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 41 - Protein structure prediction - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 42 - Protein stability - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 43 - Protein stability - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 44 - Demo: Homology Modelling
Link NOC:BioInformatics - Algorithms and Applications Lecture 45 - Stabilizing residues
Link NOC:BioInformatics - Algorithms and Applications Lecture 46 - Thermodynamic database
Link NOC:BioInformatics - Algorithms and Applications Lecture 47 - Stability of proteins upon mutations - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 48 - Stability of proteins upon mutations - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 49 - Demo: ProTherm
Link NOC:BioInformatics - Algorithms and Applications Lecture 50 - Protein folding rate - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 51 - Protein folding rate - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 52 - Protein interactions - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 53 - Protein interactions - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 54 - Computer aided drug design - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 55 - Computer aided drug design - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 56 - Virtual screening - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 57 - Virtual screening - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 58 - QSAR - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 59 - QSAR - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 60 - Demo: Autodock
Link NOC:BioInformatics - Algorithms and Applications Lecture 61 - awk programming - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 62 - awk programming - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 63 - Development of algorithms - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 64 - Development of algorithms - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 65 - Applications of bioinformatics - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 66 - Applications of bioinformatics - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 67 - Overview - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 68 - Overview - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 69 - Demo: Weka
Link NOC:Demystifying the Brain Lecture 1 - The Whole and Its Parts: A History of Ideas about Brain
Link NOC:Demystifying the Brain Lecture 2 - Understanding Brain’s Shape - Segment 1 - Brain size and intelligence
Link NOC:Demystifying the Brain Lecture 3 - Understanding Brain’s Shape - Segment 2 - Save Wire Principle
Link NOC:Demystifying the Brain Lecture 4 - Understanding Brain’s Shape - Segment 3 - Brain Evolution
Link NOC:Demystifying the Brain Lecture 5 - Neurons and Neural Signaling: Outline
Link NOC:Demystifying the Brain Lecture 6 - Neural Signalling : Molecular and Cellular Basis
Link NOC:Demystifying the Brain Lecture 7 - Networks that Learn - Segment 1
Link NOC:Demystifying the Brain Lecture 8 - Multilayer Perceptrons Applications in Psychology and Neuroscience
Link NOC:Demystifying the Brain Lecture 9 - Organization of the Central Nervous System-Segment 1 - Cortex
Link NOC:Demystifying the Brain Lecture 10 - Organization of the Central Nervous System-Segment 2 - Subcortical Structures
Link NOC:Demystifying the Brain Lecture 11 - Maps in the Brain - Segment 1
Link NOC:Demystifying the Brain Lecture 12 - Maps in the Brain - Segment 2
Link NOC:Demystifying the Brain Lecture 13 - Emotions in the Brain - Segment 1
Link NOC:Demystifying the Brain Lecture 14 - Emotions in the Brain - Segment 2
Link NOC:Demystifying the Brain Lecture 15 - Memories and Holograms - Segment 1
Link NOC:Demystifying the Brain Lecture 16 - Memories and Holograms - Segment 2
Link NOC:Demystifying the Brain Lecture 17 - Consciousness - Segment 1
Link NOC:Demystifying the Brain Lecture 18 - Consciousness - Segment 2
Link NOC:Computational Systems Biology Lecture 1 - Introduction
Link NOC:Computational Systems Biology Lecture 2 - Introduction to Modelling
Link NOC:Computational Systems Biology Lecture 3 - Introduction to Modelling
Link NOC:Computational Systems Biology Lecture 4 - Fundamentals of Mathematical Modelling
Link NOC:Computational Systems Biology Lecture 5 - Fundamentals of Mathematical Modelling
Link NOC:Computational Systems Biology Lecture 6 - Fundamentals of Mathematical Modelling
Link NOC:Computational Systems Biology Lecture 7 - Some Example Models
Link NOC:Computational Systems Biology Lecture 8 - Representation of Biological Networks
Link NOC:Computational Systems Biology Lecture 9 - Lab: MATLAB Basics
Link NOC:Computational Systems Biology Lecture 10 - Lab: MATLAB Basics
Link NOC:Computational Systems Biology Lecture 11 - Lab: MATLAB Basics
Link NOC:Computational Systems Biology Lecture 12 - Lab: MATLAB Basics
Link NOC:Computational Systems Biology Lecture 13 - Introduction to Networks
Link NOC:Computational Systems Biology Lecture 14 - Introduction to Networks
Link NOC:Computational Systems Biology Lecture 15 - Introduction to Network Biology
Link NOC:Computational Systems Biology Lecture 16 - Introduction to Network Biology
Link NOC:Computational Systems Biology Lecture 17 - Introduction to Network Biology
Link NOC:Computational Systems Biology Lecture 18 - Network Biology
Link NOC:Computational Systems Biology Lecture 19 - Network Models
Link NOC:Computational Systems Biology Lecture 20 - Network Models
Link NOC:Computational Systems Biology Lecture 21 - Biological Networks
Link NOC:Computational Systems Biology Lecture 22 - Network Perturbations
Link NOC:Computational Systems Biology Lecture 23 - Community Detection
Link NOC:Computational Systems Biology Lecture 24 - Network Motifs
Link NOC:Computational Systems Biology Lecture 25 - Lab: Cytoscape
Link NOC:Computational Systems Biology Lecture 26 - Lab: Cytoscape
Link NOC:Computational Systems Biology Lecture 27 - Lab: Network Biology
Link NOC:Computational Systems Biology Lecture 28 - Network Biology: Recap
Link NOC:Computational Systems Biology Lecture 29 - Lab: Network Models and Perturbations
Link NOC:Computational Systems Biology Lecture 30 - Lab: Network Models and Perturbations
Link NOC:Computational Systems Biology Lecture 31 - Reconstruction of Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 32 - Reconstruction of Protein Networks
Link NOC:Computational Systems Biology Lecture 33 - Reconstruction of Signalling Networks
Link NOC:Computational Systems Biology Lecture 34 - Reconstruction of Signalling Networks
Link NOC:Computational Systems Biology Lecture 35 - Introduction to Dynamic Modelling
Link NOC:Computational Systems Biology Lecture 36 - Introduction to Dynamic Modelling
Link NOC:Computational Systems Biology Lecture 37 - Introduction to Dynamic Modelling
Link NOC:Computational Systems Biology Lecture 38 - Lab: Solving ODEs in MATLAB
Link NOC:Computational Systems Biology Lecture 39 - Lab: Example Biological Model
Link NOC:Computational Systems Biology Lecture 40 - Parameter Estimation
Link NOC:Computational Systems Biology Lecture 41 - Parameter Estimation
Link NOC:Computational Systems Biology Lecture 42 - Parameter Estimation
Link NOC:Computational Systems Biology Lecture 43 - Methods for Parameter Estimation
Link NOC:Computational Systems Biology Lecture 44 - Direct Search Methods
Link NOC:Computational Systems Biology Lecture 45 - Genetic Algorithms
Link NOC:Computational Systems Biology Lecture 46 - Genetic Algorithms
Link NOC:Computational Systems Biology Lecture 47 - Other Evolutionary Algorithms
Link NOC:Computational Systems Biology Lecture 48 - PyGMO
Link NOC:Computational Systems Biology Lecture 49 - Dynamic Modelling Recap
Link NOC:Computational Systems Biology Lecture 50 - Lab: Parameter Estimation
Link NOC:Computational Systems Biology Lecture 51 - Guest Lecture: Modelling in Drug Development
Link NOC:Computational Systems Biology Lecture 52 - Guest Lecture: Modelling in Drug Development
Link NOC:Computational Systems Biology Lecture 53 - Guest Lecture: Quantitative Systems Pharmacology
Link NOC:Computational Systems Biology Lecture 54 - Guest Lecture: Quantitative Systems Pharmacology
Link NOC:Computational Systems Biology Lecture 55 - Guest Lecture: Quantitative Systems Pharmacology
Link NOC:Computational Systems Biology Lecture 56 - Constraint-based Modelling of Metabolic Networks
Link NOC:Computational Systems Biology Lecture 57 - Flux Balance Analysis
Link NOC:Computational Systems Biology Lecture 58 - Flux Balance Analysis
Link NOC:Computational Systems Biology Lecture 59 - Flux Balance Analysis
Link NOC:Computational Systems Biology Lecture 60 - Other Constraint-Based Approaches
Link NOC:Computational Systems Biology Lecture 61 - Other Constraint-Based Approaches
Link NOC:Computational Systems Biology Lecture 62 - Lab: FBA using MATLAB
Link NOC:Computational Systems Biology Lecture 63 - Perturbations to Metabolic Networks: Deletions
Link NOC:Computational Systems Biology Lecture 64 - Lab: COBRA Toolbox
Link NOC:Computational Systems Biology Lecture 65 - Understanding FBA
Link NOC:Computational Systems Biology Lecture 66 - Understanding FBA
Link NOC:Computational Systems Biology Lecture 67 - Perturbations to Metabolic Networks: Over-expression
Link NOC:Computational Systems Biology Lecture 68 - Perturbations to Metabolic Networks: Synthetic Lethals
Link NOC:Computational Systems Biology Lecture 69 - Perturbations to Metabolic Networks: Synthetic Lethals
Link NOC:Computational Systems Biology Lecture 70 - Constraint-based Modelling of Metabolic Networks
Link NOC:Computational Systems Biology Lecture 71 - Lab: Gene Deletions
Link NOC:Computational Systems Biology Lecture 72 - Integrating Regulatory Information into Constraint-Based Models
Link NOC:Computational Systems Biology Lecture 73 - Elementary Modes
Link NOC:Computational Systems Biology Lecture 74 - Elementary Modes
Link NOC:Computational Systems Biology Lecture 75 - Constraint-based Modelling of Metabolic Networks: Applications
Link NOC:Computational Systems Biology Lecture 76 - Constraint-based Modelling of Metabolic Networks: Applications
Link NOC:Computational Systems Biology Lecture 77 - Constraint-based Modelling of Metabolic Networks: Applications
Link NOC:Computational Systems Biology Lecture 78 - Lab: Gene Deletions
Link NOC:Computational Systems Biology Lecture 79 - Constraint-based Modelling of Metabolic Networks: Recap
Link NOC:Computational Systems Biology Lecture 80 - Constraint-based Modelling of Metabolic Networks: Recap
Link NOC:Computational Systems Biology Lecture 81 - Constraint-based Modelling of Metabolic Networks: Recap
Link NOC:Computational Systems Biology Lecture 82 - $^{13}$C-Metabolic Flux Analysis using Mass Spectrometry
Link NOC:Computational Systems Biology Lecture 83 - $^{13}$C-Metabolic Flux Analysis using Mass Spectrometry
Link NOC:Computational Systems Biology Lecture 84 - $^{13}$C-Metabolic Flux Analysis using Mass Spectrometry
Link NOC:Computational Systems Biology Lecture 85 - Lab: $^{13}$C-Metabolic Flux Analysis using Mass Spectrometry
Link NOC:Computational Systems Biology Lecture 86 - Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 87 - Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 88 - Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 89 - Lab: Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 90 - Lab: Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 91 - Computational Modelling of Host-Pathogen Interactions
Link NOC:Computational Systems Biology Lecture 92 - Computational Modelling of Host-Pathogen Interactions
Link NOC:Computational Systems Biology Lecture 93 - Robustness in Biological Systems
Link NOC:Computational Systems Biology Lecture 94 - Robustness in Biological Systems: Mechanisms
Link NOC:Computational Systems Biology Lecture 95 - Robustness in Biological Systems: Organising Principles
Link NOC:Computational Systems Biology Lecture 96 - Robustness in Biological Systems: Trade-offs
Link NOC:Computational Systems Biology Lecture 97 - Obustness and Evolvability
Link NOC:Computational Systems Biology Lecture 98 - obustness and Evolvability
Link NOC:Computational Systems Biology Lecture 99 - Introduction to Synthetic Biology
Link NOC:Computational Systems Biology Lecture 100 - Advanced Topics
Link NOC:Computational Systems Biology Lecture 101 - Advanced Topics
Link NOC:Computational Systems Biology Lecture 102 - Advanced Topics
Link NOC:Computational Systems Biology Lecture 103 - Course Recap
Link NOC:Material and Energy Balances Lecture 1 - Fundamentals of Engineering Calculations
Link NOC:Material and Energy Balances Lecture 2 - Process Parameters and Variables
Link NOC:Material and Energy Balances Lecture 3 - Fundamentals of Material Balances
Link NOC:Material and Energy Balances Lecture 4 - Material Balance Calculations for Single Units Without Reactions - Part 1
Link NOC:Material and Energy Balances Lecture 5 - Material Balance Calculations for Single Units Without Reactions - Part 2
Link NOC:Material and Energy Balances Lecture 6 - Material Balance Calculations for Single Units Without Reactions - Part 3
Link NOC:Material and Energy Balances Lecture 7 - Material Balance Calculations for Single Units Without Reactions - Part 4
Link NOC:Material and Energy Balances Lecture 8 - Material Balance Calculations for Multiple Units Without Reactions - Part 1
Link NOC:Material and Energy Balances Lecture 9 - Material Balance Calculations for Multiple Units Without Reactions - Part 2
Link NOC:Material and Energy Balances Lecture 10 - Fundamentals of Reactive Processes
Link NOC:Material and Energy Balances Lecture 11 - Material Balance Calculations For Single Units With A Single Reaction
Link NOC:Material and Energy Balances Lecture 12 - Material Balance Calculations for Single Units with A Single Reaction (Continued...)
Link NOC:Material and Energy Balances Lecture 13 - Material Balance Calculations for Single Units with Multiple Reactions - Part 1
Link NOC:Material and Energy Balances Lecture 14 - Material Balance Calculations for Single Units with Multiple Reactions - Part 2
Link NOC:Material and Energy Balances Lecture 15 - Material Balance Calculations for Single Units with Multiple Reactions - Part 3
Link NOC:Material and Energy Balances Lecture 16 - Material Balance Calculations for Multiple Units with Reactions - Part 1
Link NOC:Material and Energy Balances Lecture 17 - Material Balance Calculations for Multiple Units with Reactions - Part 2
Link NOC:Material and Energy Balances Lecture 18 - Material Balances on Reactive Processes - Tutorials
Link NOC:Material and Energy Balances Lecture 19 - Combustion Reactions: An Introduction
Link NOC:Material and Energy Balances Lecture 20 - Material Balances for Combustion Reactions
Link NOC:Material and Energy Balances Lecture 21 - Biochemical Reactions: Enzyme Kinetics
Link NOC:Material and Energy Balances Lecture 22 - Biochemical Reactions: Cell Growth
Link NOC:Material and Energy Balances Lecture 23 - Recycle Without Reactions
Link NOC:Material and Energy Balances Lecture 24 - Recycle with Reactions
Link NOC:Material and Energy Balances Lecture 25 - Recycle: Tutorials
Link NOC:Material and Energy Balances Lecture 26 - Bypass
Link NOC:Material and Energy Balances Lecture 27 - Purge
Link NOC:Material and Energy Balances Lecture 28 - Material Balance: A Review - Part 1
Link NOC:Material and Energy Balances Lecture 29 - Material Balance: A Review - Part 2
Link NOC:Material and Energy Balances Lecture 30 - Material Balance: A Review - Part 3
Link NOC:Material and Energy Balances Lecture 31 - The Unreasonable Effectiveness of Material Balance
Link NOC:Material and Energy Balances Lecture 32 - Constraint-based modelling
Link NOC:Material and Energy Balances Lecture 33 - Flux balance analysis - Part 1
Link NOC:Material and Energy Balances Lecture 34 - Flux balance analysis - Part 2
Link NOC:Material and Energy Balances Lecture 35 - Energy Balance Terminologies and Concepts
Link NOC:Material and Energy Balances Lecture 36 - Introduction to Energy Balances - Part 1
Link NOC:Material and Energy Balances Lecture 37 - Introduction to Energy Balances - Part 2
Link NOC:Material and Energy Balances Lecture 38 - Introduction to Energy Balances: Tutorials
Link NOC:Material and Energy Balances Lecture 39 - Mechanical Energy Balances
Link NOC:Material and Energy Balances Lecture 40 - Mechanical Energy Balances: Tutorials
Link NOC:Material and Energy Balances Lecture 41 - Energy Balance Objectives and Procedures
Link NOC:Material and Energy Balances Lecture 42 - Introduction to Nonreactive Processes Without Phase Change
Link NOC:Material and Energy Balances Lecture 43 - Energy Balances on Single-Phase Nonreactive Processes
Link NOC:Material and Energy Balances Lecture 44 - Energy Balances on Single-Phase Nonreactive Processes: Tutorials
Link NOC:Material and Energy Balances Lecture 45 - Fundamentals of Nonreactive Phase Change Processes
Link NOC:Material and Energy Balances Lecture 46 - Estimating Latent Heats
Link NOC:Material and Energy Balances Lecture 47 - Energy Balances on Nonreactive Processes With Phase Change
Link NOC:Material and Energy Balances Lecture 48 - Energy Balances on Nonreactive Processes With Phase Change: Tutorials - 1
Link NOC:Material and Energy Balances Lecture 49 - Energy Balances on Nonreactive Processes With Phase Change: Tutorials - 2
Link NOC:Material and Energy Balances Lecture 50 - Psychrometric Charts
Link NOC:Material and Energy Balances Lecture 51 - Energy Balances Using Psychrometric Charts
Link NOC:Material and Energy Balances Lecture 52 - Mixing and Solution
Link NOC:Material and Energy Balances Lecture 53 - Mixing and Solution: Tutorials - 1
Link NOC:Material and Energy Balances Lecture 54 - Mixing and Solution: Tutorials - 2
Link NOC:Material and Energy Balances Lecture 55 - Fundamentals for Energy Balances on Reactive Processes - Part 1
Link NOC:Material and Energy Balances Lecture 56 - Fundamentals for Energy Balances on Reactive Processes - Part 1 and Part 2
Link NOC:Material and Energy Balances Lecture 57 - Fundamentals for Energy Balances on Reactive Processes - Tutorials
Link NOC:Material and Energy Balances Lecture 58 - Energy Balances on Reactive Processes - Part 1
Link NOC:Material and Energy Balances Lecture 59 - Energy Balances on Reactive Processes - Part 2
Link NOC:Material and Energy Balances Lecture 60 - Energy Balances on Reactive Processes - Part 3
Link NOC:Material and Energy Balances Lecture 61 - Energy Balances on Reactive Processes - Part 4
Link NOC:Material and Energy Balances Lecture 62 - Energy Balances on Reactive Processes - Part 5
Link NOC:Material and Energy Balances Lecture 63 - Energy Balances on Reactive Processes - Part 6
Link NOC:Material and Energy Balances Lecture 64 - Energy Balances: A Review - Part 1
Link NOC:Material and Energy Balances Lecture 65 - Energy Balances: A Review - Part 2
Link NOC:Material and Energy Balances Lecture 66 - Energy Balances: A Review - Part 3
Link NOC:Material and Energy Balances Lecture 67 - Energy Balances: A Review - Part 4
Link NOC:Material and Energy Balances Lecture 68 - Unsteady State Material Balances
Link NOC:Material and Energy Balances Lecture 69 - Unsteady State Energy Balances
Link NOC:Computer Aided Drug Design Lecture 1 - Introduction
Link NOC:Computer Aided Drug Design Lecture 2 - Drug Discovery - Issues
Link NOC:Computer Aided Drug Design Lecture 3 - Target and Lead Identification
Link NOC:Computer Aided Drug Design Lecture 4 - Drug And Data bases
Link NOC:Computer Aided Drug Design Lecture 5 - Drug Properties
Link NOC:Computer Aided Drug Design Lecture 6 - Drug - Properties / SMILES
Link NOC:Computer Aided Drug Design Lecture 7 - Drug Solubility
Link NOC:Computer Aided Drug Design Lecture 8 - Drug Solubility / permeability
Link NOC:Computer Aided Drug Design Lecture 9 - ADME
Link NOC:Computer Aided Drug Design Lecture 10 - Drug - ADME
Link NOC:Computer Aided Drug Design Lecture 11 - Drug - ADME
Link NOC:Computer Aided Drug Design Lecture 12 - Drug - BBB
Link NOC:Computer Aided Drug Design Lecture 13 - Pgp efflux/Drug Likeness
Link NOC:Computer Aided Drug Design Lecture 14 - Drug Likeness
Link NOC:Computer Aided Drug Design Lecture 15 - Molecular Modelling
Link NOC:Computer Aided Drug Design Lecture 16 - Molecular Mechanics / Force Field
Link NOC:Computer Aided Drug Design Lecture 17 - Molecular Mechanics / Force Field
Link NOC:Computer Aided Drug Design Lecture 18 - Molecular Mechanics / Force Field
Link NOC:Computer Aided Drug Design Lecture 19 - Molecular Mechanics / Force Field
Link NOC:Computer Aided Drug Design Lecture 20 - ODES and Numerical methods
Link NOC:Computer Aided Drug Design Lecture 21 - ODES and Numerical methods
Link NOC:Computer Aided Drug Design Lecture 22 - Conformational Search / MD
Link NOC:Computer Aided Drug Design Lecture 23 - Quantum Mechanics
Link NOC:Computer Aided Drug Design Lecture 24 - Quantum Mechanics
Link NOC:Computer Aided Drug Design Lecture 25 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 26 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 27 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 28 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 29 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 30 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 31 - 3D QSAR
Link NOC:Computer Aided Drug Design Lecture 32 - Pharmacophore modelling
Link NOC:Computer Aided Drug Design Lecture 33 - Target based drug design
Link NOC:Computer Aided Drug Design Lecture 34 - Target based drug design
Link NOC:Computer Aided Drug Design Lecture 35 - Target based drug design
Link NOC:Computer Aided Drug Design Lecture 36 - Target based drug design
Link NOC:Computer Aided Drug Design Lecture 37 - Docking
Link NOC:Computer Aided Drug Design Lecture 38 - Docking
Link NOC:Computer Aided Drug Design Lecture 39 - Pharmacokinetics / pharmacodynamics
Link NOC:Computer Aided Drug Design Lecture 40 - Pharmacokinetics / pharmacodynamics
Link NOC:Plant Cell Bioprocessing Lecture 1 - Introduction to plant cell technology
Link NOC:Plant Cell Bioprocessing Lecture 2 - History of plant cell and tissue culture
Link NOC:Plant Cell Bioprocessing Lecture 3 - Anatomy of plant cells
Link NOC:Plant Cell Bioprocessing Lecture 4 - Plant tissues and functions
Link NOC:Plant Cell Bioprocessing Lecture 5 - Photosynthesis and Photorespiration
Link NOC:Plant Cell Bioprocessing Lecture 6 - In-vitro culture initiation
Link NOC:Plant Cell Bioprocessing Lecture 7 - Nutritional requirements of plant cells
Link NOC:Plant Cell Bioprocessing Lecture 8 - Organogenesis and Regeneration
Link NOC:Plant Cell Bioprocessing Lecture 9 - Somaclonal variation and Micropropagation
Link NOC:Plant Cell Bioprocessing Lecture 10 - Somatic embryogenesis and Protoplast culture
Link NOC:Plant Cell Bioprocessing Lecture 11 - Synthetic seeds, Cryopreservation and Freezing methods
Link NOC:Plant Cell Bioprocessing Lecture 12 - Secondary metabolism in plant cells - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 13 - Secondary metabolism in plant cells - Part 2
Link NOC:Plant Cell Bioprocessing Lecture 14 - Secondary metabolism in plant cells - Part 3
Link NOC:Plant Cell Bioprocessing Lecture 15 - Secondary metabolism in plant cells - Part 4
Link NOC:Plant Cell Bioprocessing Lecture 16 - Optimization strategies - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 17 - Optimization strategies - Part 2
Link NOC:Plant Cell Bioprocessing Lecture 18 - Optimization strategies - Part 3
Link NOC:Plant Cell Bioprocessing Lecture 19 - Optimization strategies - Part 4
Link NOC:Plant Cell Bioprocessing Lecture 20 - Biotransformation in plant cultures
Link NOC:Plant Cell Bioprocessing Lecture 21 - Immobilization of plant cells
Link NOC:Plant Cell Bioprocessing Lecture 22 - Genetic transformations in plant cells - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 23 - Genetic transformations in plant cells - Part 2
Link NOC:Plant Cell Bioprocessing Lecture 24 - Genetic transformations in plant cells - Part 3
Link NOC:Plant Cell Bioprocessing Lecture 25 - Plant Cell Bioreactors - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 26 - Plant Cell Bioreactors - Part 2
Link NOC:Plant Cell Bioprocessing Lecture 27 - Bioreactors for Hairy Root cultures
Link NOC:Plant Cell Bioprocessing Lecture 28 - Case study - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 29 - Case study - Part 2
Link NOC:Tissue Engineering Lecture 1 - Introduction to Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 2 - Introduction to Tissue Engineering - Part 2
Link NOC:Tissue Engineering Lecture 3 - Introduction to Tissue Engineering - Part 3
Link NOC:Tissue Engineering Lecture 4 - Scaffolds: Extracellular Matrix
Link NOC:Tissue Engineering Lecture 5 - Scaffolds: Natural Polymers
Link NOC:Tissue Engineering Lecture 6 - Scaffolds: Synthetic Polymers
Link NOC:Tissue Engineering Lecture 7 - Hydrogels - Part 1
Link NOC:Tissue Engineering Lecture 8 - Hydrogels - Part 2
Link NOC:Tissue Engineering Lecture 9 - Bioceramics
Link NOC:Tissue Engineering Lecture 10 - Scaffold fabrication strategies
Link NOC:Tissue Engineering Lecture 11 - Self Assembly
Link NOC:Tissue Engineering Lecture 12 - 3D Bioprinting
Link NOC:Tissue Engineering Lecture 13 - Material Characterization - Part 1
Link NOC:Tissue Engineering Lecture 14 - Material Characterization - Part 2
Link NOC:Tissue Engineering Lecture 15 - Material Characterization - Part 3
Link NOC:Tissue Engineering Lecture 16 - Cell Source
Link NOC:Tissue Engineering Lecture 17 - Cell Isolation - Part 1
Link NOC:Tissue Engineering Lecture 18 - Cell Isolation - Part 2
Link NOC:Tissue Engineering Lecture 19 - Tissue Dynamics
Link NOC:Tissue Engineering Lecture 20 - Cell Differentiation
Link NOC:Tissue Engineering Lecture 21 - Cell Adhesion
Link NOC:Tissue Engineering Lecture 22 - Cell Migration
Link NOC:Tissue Engineering Lecture 23 - Signaling and biomolecule delivery in Tissue Engineering
Link NOC:Tissue Engineering Lecture 24 - Bioreactors in Tissue Engineering
Link NOC:Tissue Engineering Lecture 25 - Challenges in Tissue Engineering
Link NOC:Tissue Engineering Lecture 26 - Host integration and immune responses - Part 1
Link NOC:Tissue Engineering Lecture 27 - Host integration and immune responses - Part 2
Link NOC:Tissue Engineering Lecture 28 - Bioethics of Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 29 - Bioethics of Tissue Engineering - Part 2
Link NOC:Tissue Engineering Lecture 30 - Skin Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 31 - Skin Tissue Engineering - Part 2
Link NOC:Tissue Engineering Lecture 32 - Bone Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 33 - Bone Tissue Engineering - Part 2
Link NOC:Tissue Engineering Lecture 34 - Bone Tissue Engineering - Part 3
Link NOC:Tissue Engineering Lecture 35 - Vascular Tissue Engineering
Link NOC:Tissue Engineering Lecture 36 - Corneal Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 37 - Corneal Tissue Engineering - Part 2
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 1 - Introduction and review
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 2 - Review (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 3 - Need for analysis
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 4 - Additional Thermodynamic Functions
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 5 - State and Path Variables
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 6 - Equations for a Closed System
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 7 - Chemical Potential
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 8 - Gibbs Duhem equation
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 9 - Maxwell’s relations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 10 - Inter-relationships between thermodynamic variables (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 11 - Some useful mathematical manipulations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 12 - Thermodynamic relations for a closed system with 1 mole of pure substance
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 13 - Maximum work
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 14 - Open systems
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 15 - Equations of state - Virial equations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 16 - Equations of state - Cubic equations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 17 - Volume estimation
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 18 - Volume estimation (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 19 - Generalized correlations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 20 - Generalized correlations (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 21 - Residual properties
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 22 - Residual properties (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 23 - Generalized correlations and residual properties
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 24 - Fugacity coefficient estimation
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 25 - Review of module 3
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 26 - Learning aspects
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 27 - Chemical potential formulations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 28 - Lewis and Randall rule
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 29 - Partial molar properties
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 30 - Partial molar property estimation from mixing experiments
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 31 - Partial molar property estimation (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 32 - Activity coefficient from excess property
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 33 - Activity coefficient from excess property (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 34 - Models for activity coefficient in a binary system
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 35 - Models for activity coefficient for a binary system (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 36 - Review of module 4
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 37 - Criteria for phase equilibrium
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 38 - Phase rule for non-reacting systems
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 39 - Clausius Clayperon equation
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 40 - Clausius Clayperon equation (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 41 - Vapour liquid equilibrium
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 42 - Vapour liquid equilibrium (Continued...)
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 43 - Estimation of fugacity coefficient from P-V-T data at equilibrium
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 44 - Liquid-liquid and solid-liquid equilibria
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 45 - Review of module 5
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 46 - Criteria for bioreaction equilibria
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 47 - Phase rule for reacting biosystems
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 48 - Equilibrium constants
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 49 - Effect of temperature on the equilibrium constants
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 50 - Reaction in liquid or solid phases
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 51 - Free energy changes for some bioreactions
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 52 - Electrolytes
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 53 - Review of the classical thermodynamics part
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 54 - Introduction to Statistical thermodynamics
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 55 - Concepts of macro and microstates
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 56 - Thermodynamic probability
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 57 - Boltzmann distribution law
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 58 - Defining β in Boltzmann distribution law
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 59 - Relationship between partition function and thermodynamic quantities
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 60 - Partition function of mono atomic gases
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 61 - Entropy in terms of probablity
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 62 - Gibbs paradox
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 63 - Thermodynamic probability for distinguishable particles
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 64 - Thermodynamic probability for indistinguishable particles
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 65 - Sackur - Tetrode equation
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 66 - Partition function and Helmholtz and Gibbs free energy
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 67 - Ensemble approach
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 68 - Ensemble average, time average, Ergodic hypothesis
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 69 - Partition function for classical systems
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 70 - Pair potentials for atomic systems
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 71 - Potential for molecular systems
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 72 - Computer code for LJ potential
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 73 - Introduction to computer simulations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 74 - Computer simulations of macromolecules
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 75 - MD simulation examples
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 76 - Link between theory and experiments
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 77 - MD protocol
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 78 - Computer simulation tricks
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 79 - Understanding force fields
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 80 - Idea of Z-matrix
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 81 - Basics of MD simulations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 82 - Integration algorithms
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 83 - Calculation of Columbic force
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 84 - Calculation of LJ force
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 85 - Monte Carlo simulations
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 86 - Analysis of MD trajectory
Link NOC:Thermodynamics for Biological Systems: Classical and Statistical Aspect Lecture 87 - Case study (water)
Link NOC:Transport Phenomena in Biological Systems Lecture 1 - Introduction
Link NOC:Transport Phenomena in Biological Systems Lecture 2 - Mass Conservation
Link NOC:Transport Phenomena in Biological Systems Lecture 3 - Mass Conservation for a Macroscopic System
Link NOC:Transport Phenomena in Biological Systems Lecture 4 - Mass Conservation for a Microscopic System
Link NOC:Transport Phenomena in Biological Systems Lecture 5 - Useful Derivatives
Link NOC:Transport Phenomena in Biological Systems Lecture 6 - Equation of Continuity
Link NOC:Transport Phenomena in Biological Systems Lecture 7 - Mass Flux
Link NOC:Transport Phenomena in Biological Systems Lecture 8 - Mass and Molar Fluxes
Link NOC:Transport Phenomena in Biological Systems Lecture 9 - Shell Balance Approach
Link NOC:Transport Phenomena in Biological Systems Lecture 10 - Continuity Equation Approach
Link NOC:Transport Phenomena in Biological Systems Lecture 11 - Steady-state Diffusion
Link NOC:Transport Phenomena in Biological Systems Lecture 12 - Steady-state Diffusion across Tubular Walls
Link NOC:Transport Phenomena in Biological Systems Lecture 13 - Steady-state Radial Diffusion
Link NOC:Transport Phenomena in Biological Systems Lecture 14 - Steady-state Diffusion with Reaction
Link NOC:Transport Phenomena in Biological Systems Lecture 15 - Unsteady-state Diffusion
Link NOC:Transport Phenomena in Biological Systems Lecture 16 - Unsteady-state Diffusion (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 17 - Pseudo Steady State Approximation (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 18 - Pseudo Steady State Approximation (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 19 - Review of Mass Flux
Link NOC:Transport Phenomena in Biological Systems Lecture 20 - Momentum Flux - Introduction
Link NOC:Transport Phenomena in Biological Systems Lecture 21 - Rheology
Link NOC:Transport Phenomena in Biological Systems Lecture 22 - Fluid Flow types
Link NOC:Transport Phenomena in Biological Systems Lecture 23 - Shell Momentum Balances
Link NOC:Transport Phenomena in Biological Systems Lecture 24 - Shell Momentum Balances (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 25 - Equation of Motion
Link NOC:Transport Phenomena in Biological Systems Lecture 26 - Equation of Motion (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 27 - Application of Equation of Motion to Flow Over an Inclined Plane
Link NOC:Transport Phenomena in Biological Systems Lecture 28 - Laminar Flow through a Pipe
Link NOC:Transport Phenomena in Biological Systems Lecture 29 - Laminar Flow through a Pipe (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 30 - Capillary Flow
Link NOC:Transport Phenomena in Biological Systems Lecture 31 - Couette Flow
Link NOC:Transport Phenomena in Biological Systems Lecture 32 - Non-dimensional Analysis
Link NOC:Transport Phenomena in Biological Systems Lecture 33 - Unsteady State Flow
Link NOC:Transport Phenomena in Biological Systems Lecture 34 - Unsteady State Flow (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 35 - Pulsatile Flow
Link NOC:Transport Phenomena in Biological Systems Lecture 36 - Turbulent Flow
Link NOC:Transport Phenomena in Biological Systems Lecture 37 - Macroscopic Aspects: The Engineering Bernoulli Equation
Link NOC:Transport Phenomena in Biological Systems Lecture 38 - Friction Factor for Flow through a Straight Horizontal Pipe
Link NOC:Transport Phenomena in Biological Systems Lecture 39 - Application of the Engineering Bernoulli Equation to a Piping Network
Link NOC:Transport Phenomena in Biological Systems Lecture 40 - Stenosis in an Artery
Link NOC:Transport Phenomena in Biological Systems Lecture 41 - Friction Factor for Relative Motion between a Solid and a Liquid
Link NOC:Transport Phenomena in Biological Systems Lecture 42 - Friction Factor for Packed Beds
Link NOC:Transport Phenomena in Biological Systems Lecture 43 - Review of Momentum Flux
Link NOC:Transport Phenomena in Biological Systems Lecture 44 - Review of Momentum Flux (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 45 - Thermal Energy Flux
Link NOC:Transport Phenomena in Biological Systems Lecture 46 - Equation of Energy
Link NOC:Transport Phenomena in Biological Systems Lecture 47 - Temperature Profile in a Tissue
Link NOC:Transport Phenomena in Biological Systems Lecture 48 - Unsteady-state Heat Conduction
Link NOC:Transport Phenomena in Biological Systems Lecture 49 - Review of Heat Flux
Link NOC:Transport Phenomena in Biological Systems Lecture 50 - Charge Flux
Link NOC:Transport Phenomena in Biological Systems Lecture 51 - Charge Flux - Some Fundamentals
Link NOC:Transport Phenomena in Biological Systems Lecture 52 - Charge Flux - Some More Fundamentals
Link NOC:Transport Phenomena in Biological Systems Lecture 53 - Getting Useful Relationships through Maxwell's Equations
Link NOC:Transport Phenomena in Biological Systems Lecture 54 - Charges/Ions in Solution
Link NOC:Transport Phenomena in Biological Systems Lecture 55 - Charge Flux: Review
Link NOC:Transport Phenomena in Biological Systems Lecture 56 - Fluxes Under Simultaneous, Multiple Driving Forces
Link NOC:Transport Phenomena in Biological Systems Lecture 57 - Simultaneous Concentration Gradient and Electrical Potential Gradient
Link NOC:Transport Phenomena in Biological Systems Lecture 58 - Mobility of Ions Across a Membrane
Link NOC:Transport Phenomena in Biological Systems Lecture 59 - Electrical Circuit Representation of a Membrane
Link NOC:Transport Phenomena in Biological Systems Lecture 60 - Action Potential and Axial Current
Link NOC:Transport Phenomena in Biological Systems Lecture 61 - Electrophoresis
Link NOC:Transport Phenomena in Biological Systems Lecture 62 - Simultaneous Concentration Gradient and Velocity Gradient
Link NOC:Transport Phenomena in Biological Systems Lecture 63 - Simultaneous Concentration Gradient and Velocity Gradient - Bioreactor Kla
Link NOC:Transport Phenomena in Biological Systems Lecture 64 - Gas-Liquid Interphase Transport
Link NOC:Transport Phenomena in Biological Systems Lecture 65 - Gas-Liquid Interphase Transport (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 66 - Bioreactor Kla Estimation
Link NOC:Transport Phenomena in Biological Systems Lecture 67 - Liquid Phase Oxygen-Supply Strategy
Link NOC:Transport Phenomena in Biological Systems Lecture 68 - LPOS and Its Mechanism
Link NOC:Transport Phenomena in Biological Systems Lecture 69 - LPOS for Mold Cultivations
Link NOC:Transport Phenomena in Biological Systems Lecture 70 - LPOS Optimization and Costs
Link NOC:Transport Phenomena in Biological Systems Lecture 71 - Couette Flow Cultivations
Link NOC:Transport Phenomena in Biological Systems Lecture 72 - Pseudo-Steady State Approximation Applied to Bio-oil Production
Link NOC:Transport Phenomena in Biological Systems Lecture 73 - Pseudo-Steady State Approximation Applied to Cancer Treatment
Link NOC:Transport Phenomena in Biological Systems Lecture 74 - Kinetics of a Process with an Enzyme Immobilized on a Non-porous Slab
Link NOC:Transport Phenomena in Biological Systems Lecture 75 - Simultaneous Temperature Gradient and Velocity Gradient
Link NOC:Transport Phenomena in Biological Systems Lecture 76 - Design of Heat Exchangers
Link NOC:Transport Phenomena in Biological Systems Lecture 77 - Design of Heat Exchangers (Continued...)
Link NOC:Transport Phenomena in Biological Systems Lecture 78 - Course Review - Part 1
Link NOC:Transport Phenomena in Biological Systems Lecture 79 - Course Review - Part 2
Link NOC:Transport Phenomena in Biological Systems Lecture 80 - Course Review - Part 3
Link NOC:Transport Phenomena in Biological Systems Lecture 81 - Course Review - Part 4
Link NOC:Introduction to Developmental Biology Lecture 1 - Introduction
Link NOC:Introduction to Developmental Biology Lecture 2 - Life cycles and evolution of developmental patterns
Link NOC:Introduction to Developmental Biology Lecture 3 - Experimental embryology
Link NOC:Introduction to Developmental Biology Lecture 4 - Differential gene expression - Part 1
Link NOC:Introduction to Developmental Biology Lecture 5 - Differential gene expression - Part 2
Link NOC:Introduction to Developmental Biology Lecture 6 - Differential gene expression - Part 3
Link NOC:Introduction to Developmental Biology Lecture 7 - Differential gene expression - Part 4
Link NOC:Introduction to Developmental Biology Lecture 8 - Genetic basis - Part 1
Link NOC:Introduction to Developmental Biology Lecture 9 - Genetic basis - Part 2
Link NOC:Introduction to Developmental Biology Lecture 10 - Genetic basis - Part 3
Link NOC:Introduction to Developmental Biology Lecture 11 - Genetic basis - Part 4
Link NOC:Introduction to Developmental Biology Lecture 12 - Genetic basis - Part 5
Link NOC:Introduction to Developmental Biology Lecture 13 - Cell-cell communication - Part 1
Link NOC:Introduction to Developmental Biology Lecture 14 - Cell-cell communication - Part 2
Link NOC:Introduction to Developmental Biology Lecture 15 - Cell-cell communication - Part 3
Link NOC:Introduction to Developmental Biology Lecture 16 - Cell-cell communication - Part 4
Link NOC:Introduction to Developmental Biology Lecture 17 - Genetics of axis formation in Drosophila - Part 1
Link NOC:Introduction to Developmental Biology Lecture 18 - Genetics of axis formation in Drosophila - Part 2
Link NOC:Introduction to Developmental Biology Lecture 19 - Genetics of axis formation in Drosophila - Part 3
Link NOC:Introduction to Developmental Biology Lecture 20 - Genetics of axis formation in Drosophila - Part 4
Link NOC:Introduction to Developmental Biology Lecture 21 - Plant Development - Part 1
Link NOC:Introduction to Developmental Biology Lecture 22 - Plant Development - Part 2
Link NOC:Introduction to Developmental Biology Lecture 23 - Plant Development - Part 3
Link NOC:Introduction to Developmental Biology Lecture 24 - Early Mammalian Development - Part 1
Link NOC:Introduction to Developmental Biology Lecture 25 - Early Mammalian Development - Part 2
Link NOC:Introduction to Developmental Biology Lecture 26 - Evolutionary Developmental Biology - Part 1
Link NOC:Introduction to Developmental Biology Lecture 27 - Evolutionary Developmental Biology - Part 2
Link NOC:Introduction to Developmental Biology Lecture 28 - Evolutionary Developmental Biology - Part 3
Link NOC:Bioreactor Design and Analysis Lecture 1 - Introduction to the course - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 2 - Introduction to the course - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 3 - Design of Batch Bioreactors - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 4 - Design of Batch Bioreactors - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 5 - Design of Batch Bioreactors - Part 3
Link NOC:Bioreactor Design and Analysis Lecture 6 - Design of Batch Bioreactors - Part 4
Link NOC:Bioreactor Design and Analysis Lecture 7 - Design of Batch Bioreactors - Practice problems
Link NOC:Bioreactor Design and Analysis Lecture 8 - Design of Fed Batch bioreactors - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 9 - Design of Fed Batch bioreactors - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 10 - Design of Fed Batch bioreactors - Practice problems - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 11 - Design of Fed Batch bioreactors - Practice Problems - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 12 - Design of Fed Batch bioreactors - Practice Problems - Part 3
Link NOC:Bioreactor Design and Analysis Lecture 13 - Design of Continuous Bioreactors - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 14 - Design of Continuous Bioreactors - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 15 - Design of Continuous Bioreactors - Part 3
Link NOC:Bioreactor Design and Analysis Lecture 16 - Design of Continuous bioreactors - Practice Problems - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 17 - Design of Continuous bioreactors - Practice Problems - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 18 - Design of Continuous bioreactors - Practice Problems - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 19 - Mass Transfer in Bioreactors - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 20 - Mass Transfer in Bioreactors - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 21 - Mass Transfer in Bioreactors - Part 3
Link NOC:Bioreactor Design and Analysis Lecture 22 - Rheology of fluids
Link NOC:Bioreactor Design and Analysis Lecture 23 - Mass Transfer in Bioreactors - Practice Problems
Link NOC:Bioreactor Design and Analysis Lecture 24 - Heterogeneous reactions in Bioreactors - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 25 - Heterogeneous reactions in Bioreactors - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 26 - Heterogeneous reactions in Bioreactors - Part 3
Link NOC:Bioreactor Design and Analysis Lecture 27 - Heterogeneous reactions in Bioreactors - Practice Problems
Link NOC:Bioreactor Design and Analysis Lecture 28 - Heat Transfer Operations in Bioreactors - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 29 - Heat Transfer Operations in Bioreactors - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 30 - Heat Transfer Operations in Bioreactors - Part 3
Link NOC:Bioreactor Design and Analysis Lecture 31 - Heat Transfer Operations in Bioreactors - Part 4
Link NOC:Bioreactor Design and Analysis Lecture 32 - Heat Transfer Operations in Bioreactors - Practice Problems
Link NOC:Bioreactor Design and Analysis Lecture 33 - Scale up of Bioreactors - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 34 - Scale up of Bioreactors - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 35 - Scale up of Bioreactors - Part 3
Link NOC:Bioreactor Design and Analysis Lecture 36 - Scale up of Bioreactors - Part 4
Link NOC:Bioreactor Design and Analysis Lecture 37 - Scale up of Bioreactors - Practice Problems
Link NOC:Bioreactor Design and Analysis Lecture 38 - Non-ideal reactors: design and analysis - Part 1
Link NOC:Bioreactor Design and Analysis Lecture 39 - Non-ideal reactors: design and analysis - Part 2
Link NOC:Bioreactor Design and Analysis Lecture 40 - Non-ideal reactors: design and analysis - Practice Problems
Link NOC:Biochemistry (IITM) Lecture 1 - Introduction to Biomolecules - Part 1
Link NOC:Biochemistry (IITM) Lecture 2 - Introduction to Biomolecules - Part 2
Link NOC:Biochemistry (IITM) Lecture 3 - Stereochemistry and Properties of Water - Part 1
Link NOC:Biochemistry (IITM) Lecture 4 - Properties of Water - Part 2 and Introduction to Proteins
Link NOC:Biochemistry (IITM) Lecture 5 - Characteristics of Proteins and Chromatography techniques
Link NOC:Biochemistry (IITM) Lecture 6 - Electrophoresis of Proteins and Protein Sequencing
Link NOC:Biochemistry (IITM) Lecture 7 - Synthesis of Polypeptides and Enzymes - Part 1
Link NOC:Biochemistry (IITM) Lecture 8 - Enzymes - Part 2
Link NOC:Biochemistry (IITM) Lecture 9 - Enzymes - Part 3
Link NOC:Biochemistry (IITM) Lecture 10 - Enzymes - Part 4
Link NOC:Biochemistry (IITM) Lecture 11 - Enzymes - Part 5 and Carbohydrates - Part 1
Link NOC:Biochemistry (IITM) Lecture 12 - Carbohydrates - Part 2 and Lipids - Part 1
Link NOC:Biochemistry (IITM) Lecture 13 - Lipids - Part 2
Link NOC:Biochemistry (IITM) Lecture 14 - Lipids - Part 3 and Introduction to Metabolism - Part 1
Link NOC:Biochemistry (IITM) Lecture 15 - Introduction to metabolism - Part 2
Link NOC:Biochemistry (IITM) Lecture 16 - Bioenergetics - Part 1
Link NOC:Biochemistry (IITM) Lecture 17 - Bioenergetics - Part 2
Link NOC:Biochemistry (IITM) Lecture 18 - Glycolysis - Part 1
Link NOC:Biochemistry (IITM) Lecture 19 - Glycolysis - Part 2
Link NOC:Biochemistry (IITM) Lecture 20 - Citric Acid Cycle - Part 1
Link NOC:Biochemistry (IITM) Lecture 21 - Citric Acid Cycle - Part 2
Link NOC:Biochemistry (IITM) Lecture 22 - Oxidative Phosphorylation - Part 1
Link NOC:Biochemistry (IITM) Lecture 23 - Oxidative Phosphorylation - Part 2
Link NOC:Biochemistry (IITM) Lecture 24 - Photosynthesis and Carbon Assimilation - Part 1
Link NOC:Biochemistry (IITM) Lecture 25 - Photosynthesis and Carbon assimilation - Part 2
Link NOC:Biochemistry (IITM) Lecture 26 - Nitrogen Metabolism
Link NOC:Biochemistry (IITM) Lecture 27 - Catabolism of Amino acids
Link NOC:Biochemistry (IITM) Lecture 28 - Urea cycle and Fatty acid catabolism - Part 1
Link NOC:Biochemistry (IITM) Lecture 29 - Fatty acid catabolism - Part 2
Link NOC:Biochemistry (IITM) Lecture 30 - Fatty Acid Biosynthesis
Link NOC:Biochemistry (IITM) Lecture 31 - Cholestrol Biosynthesis and Lipid transport - Part 1
Link NOC:Biochemistry (IITM) Lecture 32 - Cholestrol Biosynthesis and Lipid transport - Part 2
Link NOC:Biochemistry (IITM) Lecture 33 - Hormonal Regulation and Integration of Mammalian Metabolism
Link Analytical Technologies in Biotechnology Lecture 1 - Basic concepts in microscopy - 1
Link Analytical Technologies in Biotechnology Lecture 2 - Basic concepts in microscopy - 2
Link Analytical Technologies in Biotechnology Lecture 3 - Dark-field and phase contrast microscopy
Link Analytical Technologies in Biotechnology Lecture 4 - Differential interference contrast and polarization
Link Analytical Technologies in Biotechnology Lecture 5 - Fluorescence and confocal microscopy
Link Analytical Technologies in Biotechnology Lecture 6 - Transmission electron microscopy
Link Analytical Technologies in Biotechnology Lecture 7 - Transmission electron microscopy cont. and scanning electron microscopy
Link Analytical Technologies in Biotechnology Lecture 8 - Basic concepts - 1
Link Analytical Technologies in Biotechnology Lecture 9 - Basic concepts - 2
Link Analytical Technologies in Biotechnology Lecture 10 - GM counting and Scintillation counting
Link Analytical Technologies in Biotechnology Lecture 11 - Scintillation counting continued
Link Analytical Technologies in Biotechnology Lecture 12 - Autoradiography and RIA
Link Analytical Technologies in Biotechnology Lecture 13 - Safety aspects and applications
Link Analytical Technologies in Biotechnology Lecture 14 - Introduction and Basic concepts in chromatography - 1
Link Analytical Technologies in Biotechnology Lecture 15 - Basic concepts in chromatography - 2
Link Analytical Technologies in Biotechnology Lecture 16 - Low-pressure liquid chromatography (LPLC) and high performance liquid chromatography (HPLC)
Link Analytical Technologies in Biotechnology Lecture 17 - Ion-exchange chromatography
Link Analytical Technologies in Biotechnology Lecture 18 - Gel-filtration chromatography
Link Analytical Technologies in Biotechnology Lecture 19 - Affinity chromatography
Link Analytical Technologies in Biotechnology Lecture 20 - Gas-liquid chromatography
Link Analytical Technologies in Biotechnology Lecture 21 - Basic concepts in electrophoresis
Link Analytical Technologies in Biotechnology Lecture 22 - Horizontal and vertical gel electrophoresis
Link Analytical Technologies in Biotechnology Lecture 23 - Native gel electrophoresis and SDS-PAGE
Link Analytical Technologies in Biotechnology Lecture 24 - Isoelectric focusing (IEF), 2-D gel electrophoresis and protein detection methods
Link Analytical Technologies in Biotechnology Lecture 25 - Electrophoresis of nucleic acids
Link Analytical Technologies in Biotechnology Lecture 26 - Immunoelectrophoresis and capillary electrophoresis
Link Analytical Technologies in Biotechnology Lecture 27 - Introduction and Basic Concepts - 1
Link Analytical Technologies in Biotechnology Lecture 28 - Basic concepts - 2
Link Analytical Technologies in Biotechnology Lecture 29 - Types of centrifuges and analytical ultracentrifugation method
Link Analytical Technologies in Biotechnology Lecture 30 - Separation methods in preparative ultracentrifuges
Link Analytical Technologies in Biotechnology Lecture 31 - Types of rotors
Link Analytical Technologies in Biotechnology Lecture 32 - Types of rotors cont. and care of rotors
Link Analytical Technologies in Biotechnology Lecture 33 - Introduction and basic concepts
Link Analytical Technologies in Biotechnology Lecture 34 - UV-Visible spectroscopy
Link Analytical Technologies in Biotechnology Lecture 35 - Infrared and fluorescence spectroscopy
Link Analytical Technologies in Biotechnology Lecture 36 - Circular dichroism (CD) spectroscopy
Link Analytical Technologies in Biotechnology Lecture 37 - Nuclear magnetic resonance (NMR) spectroscopy and X-ray crystallography
Link Analytical Technologies in Biotechnology Lecture 38 - Atomic spectroscopy and mass spectrometry
Link Analytical Technologies in Biotechnology Lecture 39 - Polymerase chain reaction(PCR)
Link Analytical Technologies in Biotechnology Lecture 40 - DNA sequencing methods
Link Analytical Technologies in Biotechnology Lecture 41 - Enzyme linked immunosorbent assay (ELISA)
Link NOC:Biomedical Nanotechnology Lecture 1 - Introduction to Nano
Link NOC:Biomedical Nanotechnology Lecture 2 - Nano-Biomimicry
Link NOC:Biomedical Nanotechnology Lecture 3 - Synthesis of nanomaterials by Physical and Chemical Methods
Link NOC:Biomedical Nanotechnology Lecture 4 - Synthesis of nanomaterials by Biological Methods
Link NOC:Biomedical Nanotechnology Lecture 5 - Characterisation of Nanomaterials
Link NOC:Biomedical Nanotechnology Lecture 6 - DNA Nanotechnology
Link NOC:Biomedical Nanotechnology Lecture 7 - Protein and Glyco Nanotechnology
Link NOC:Biomedical Nanotechnology Lecture 8 - Lipid Nanotechnology
Link NOC:Biomedical Nanotechnology Lecture 9 - Bio-Nanomachines
Link NOC:Biomedical Nanotechnology Lecture 10 - Carbon nanotubes and Its Bio-Applications
Link NOC:Biomedical Nanotechnology Lecture 11 - Nanomaterials for Cancer Diagnosis
Link NOC:Biomedical Nanotechnology Lecture 12 - Nanomaterials for Cancer therapy
Link NOC:Biomedical Nanotechnology Lecture 13 - Nanotechnology in Tissue Engineering
Link NOC:Biomedical Nanotechnology Lecture 14 - Nano artificial cells
Link NOC:Biomedical Nanotechnology Lecture 15 - Nanotechnology in Organ Printing
Link NOC:Biomedical Nanotechnology Lecture 16 - Nanotechnology in Point-of-Care Diagnostics
Link NOC:Biomedical Nanotechnology Lecture 17 - Nano-Pharmacology and Drug Targeting
Link NOC:Biomedical Nanotechnology Lecture 18 - Cellular uptake mechanisms of nanomaterials
Link NOC:Biomedical Nanotechnology Lecture 19 - In vitro Methods to study antibacterial and anticancer properties of nanomaterials
Link NOC:Biomedical Nanotechnology Lecture 20 - Nanotoxicology
Link NOC:Plant Developmental Biology Lecture 1 - Life Cycle of an Angiosperm
Link NOC:Plant Developmental Biology Lecture 2 - Characteristics of Plant Growth and Development - I
Link NOC:Plant Developmental Biology Lecture 3 - Characteristics of Plant Growth and Development - II
Link NOC:Plant Developmental Biology Lecture 4 - Molecular Genetics of Plant Development - I
Link NOC:Plant Developmental Biology Lecture 5 - Molecular Genetics of Plant Development - II
Link NOC:Plant Developmental Biology Lecture 6 - Molecular Genetics of Plant Development - III
Link NOC:Plant Developmental Biology Lecture 7 - Molecular Genetics of Plant Development - IV
Link NOC:Plant Developmental Biology Lecture 8 - Molecular Genetics of Plant Development (Continued...) - I
Link NOC:Plant Developmental Biology Lecture 9 - Molecular Genetics of Plant Development (Continued...) - II
Link NOC:Plant Developmental Biology Lecture 10 - Molecular Genetics of Plant Development (Continued...) - III
Link NOC:Plant Developmental Biology Lecture 11 - Root Development
Link NOC:Plant Developmental Biology Lecture 12 - Root Development (Continued...)
Link NOC:Plant Developmental Biology Lecture 13 - Root Development (Vascular Development)
Link NOC:Plant Developmental Biology Lecture 14 - Root Branching: Lateral Root Development
Link NOC:Plant Developmental Biology Lecture 15 - Shoot Development: SAM Maintenance
Link NOC:Plant Developmental Biology Lecture 16 - Shoot Development: Organogenesis
Link NOC:Plant Developmental Biology Lecture 17 - Shoot Development: Leaf Development
Link NOC:Plant Developmental Biology Lecture 18 - Shoot Development: Flowering
Link NOC:Plant Developmental Biology Lecture 19 - Cell-Cell Communication During Plant Development
Link NOC:Plant Developmental Biology Lecture 20 - Techniques Used in Lab
Link NOC:Structural Biology Lecture 1 - Introduction: Why to Study Structural Biology
Link NOC:Structural Biology Lecture 2 - Introduction to Biological Macromolecules
Link NOC:Structural Biology Lecture 3 - Introduction: Decoding Biological Macromolecules
Link NOC:Structural Biology Lecture 4 - Introduction: Genome Sequencing
Link NOC:Structural Biology Lecture 5 - Introduction: Post Genomic Era
Link NOC:Structural Biology Lecture 6 - Amino acids and their properties
Link NOC:Structural Biology Lecture 7 - Protein: Protein Chemistry, Chirality, Peptide bond and Levels of protein structures
Link NOC:Structural Biology Lecture 8 - Protein: Dihedral angles, Peptide bond and Ramachandran Plot
Link NOC:Structural Biology Lecture 9 - Protein: Super Secondary Structures, Motif, Domains, Non-covalent interactions
Link NOC:Structural Biology Lecture 10 - Protein: Folding of Protein, Thermodynamics and Kinetics of protein folding, Characterization of Proteins
Link NOC:Structural Biology Lecture 11 - Introduction to Structural Biology Techniques - Part I
Link NOC:Structural Biology Lecture 12 - Introduction to Structural Biology Techniques - Part II
Link NOC:Structural Biology Lecture 13 - X-ray Crystallography: Crystallization - Part I
Link NOC:Structural Biology Lecture 14 - X-ray Crystallography: Crystallization - Part II
Link NOC:Structural Biology Lecture 15 - X-ray Crystallography: Crystal Mounting
Link NOC:Structural Biology Lecture 16 - X-ray Crystallography: Production of X-ray and its properties
Link NOC:Structural Biology Lecture 17 - X-ray Crystallography: Journey to 3D land
Link NOC:Structural Biology Lecture 18 - X-ray Crystallography: Crystal Symmetry
Link NOC:Structural Biology Lecture 19 - X-ray Crystallography: Instrumentation in X-ray Crystallography
Link NOC:Structural Biology Lecture 20 - X-ray Crystallography: Data collection and processing
Link NOC:Structural Biology Lecture 21 - X-ray Crystallography: Data Analysis - Part I
Link NOC:Structural Biology Lecture 22 - X-ray Crystallography: Data Analysis - Part II
Link NOC:Structural Biology Lecture 23 - X-ray Crystallography: Phase Problem - Part I
Link NOC:Structural Biology Lecture 24 - X-ray Crystallography: Phase Problem - Part II
Link NOC:Structural Biology Lecture 25 - X-ray Crystallography: Refinement and Structure deposition to PDB
Link NOC:Structural Biology Lecture 26 - Introduction to Spectroscopy and NMR
Link NOC:Structural Biology Lecture 27 - Basic Principles of NMR and Instrumentation
Link NOC:Structural Biology Lecture 28 - NMR Sample Preparation and Chemical Shift related concepts
Link NOC:Structural Biology Lecture 29 - Factors effecting NMR Spectra (1D and 2D)
Link NOC:Structural Biology Lecture 30 - 2D and 3D NMR Spectroscopy focusing on protein structure
Link NOC:Structural Biology Lecture 31 - Introduction to Spectroscopy
Link NOC:Structural Biology Lecture 32 - UV-Vis and CD spectroscopy
Link NOC:Structural Biology Lecture 33 - Fluorescence Spectroscopy and Green Fluorescence Protein (GFP)
Link NOC:Structural Biology Lecture 34 - Infrared and Raman Spectroscopy for protein
Link NOC:Structural Biology Lecture 35 - Raman Spectroscopy, Raman Microscopy and Raman Crystallography for studying protein
Link NOC:Structural Biology Lecture 36 - Introduction to Microscopy
Link NOC:Structural Biology Lecture 37 - Functioning details of Cryo Electron Microscopy (Cryo EM)
Link NOC:Structural Biology Lecture 38 - Cryo Electron Microscopy: Data Collection and Analysis
Link NOC:Structural Biology Lecture 39 - A concise story of advancement Cryo-EM
Link NOC:Structural Biology Lecture 40 - Protein Data Bank
Link NOC:Structural Biology Lecture 41 - History of Molecular Visualizations of Biological Macromolecules
Link NOC:Structural Biology Lecture 42 - Description of structure related files (.pdb, .mmcif, .mtz, etc.)
Link NOC:Structural Biology Lecture 43 - Demonstration of COOT
Link NOC:Structural Biology Lecture 44 - 3D visualization using Pymol
Link NOC:Structural Biology Lecture 45 - Demonstration of Pymol
Link NOC:Structural Biology Lecture 46 - Why we need MD Simulation
Link NOC:Structural Biology Lecture 47 - Molecular Dynamic Simulation Process - Part I
Link NOC:Structural Biology Lecture 48 - Molecular Dynamic Simulation Process - Part II
Link NOC:Structural Biology Lecture 49 - Molecular Dynamic Simulation Process - Part III
Link NOC:Structural Biology Lecture 50 - Application of Molecular Dynamic Simulation
Link NOC:Structural Biology Lecture 51 - What, How and Which of Protein Engineering
Link NOC:Structural Biology Lecture 52 - How to make logical Protein Engineering: Process of Rational design
Link NOC:Structural Biology Lecture 53 - Success story of Rational Protein designing: Focusing on De Novo Process
Link NOC:Structural Biology Lecture 54 - Designing Protein by mimicking nature: Process of Directed Evolution
Link NOC:Structural Biology Lecture 55 - Achievement, Challenges, and Future direction in the field of Protein Engineering
Link NOC:Structural Biology Lecture 56 - Introduction to Structure Based Drug Discovery (SBDD)
Link NOC:Structural Biology Lecture 57 - Rational Drug Discovery
Link NOC:Structural Biology Lecture 58 - Docking Based Virtual Screening: Progress, Challenges and Future perspective
Link NOC:Structural Biology Lecture 59 - What makes a small molecule an ideal drug: Developing in silico ADMETox Model
Link NOC:Structural Biology Lecture 60 - Structure Based Drug Discovery: Case study and Conclusion
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 1 - Introduction to Learning and Memory - I : Historical perspective
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 2 - Introduction to Learning and Memory - II : Classification
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 3 - Associative Learning I : Rules of Associative learning
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 4 - Associative learning II : Garcia and Koelling’s Experiment, Kamin’s Blocking Experiment
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 5 - Introduction to the Rescorla Wagner Model
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 6 - Application of Rescorla Wagner Model - I
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 7 - Application of Rescorla Wagner Model - II
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 8 - Application of Rescorla Wagner Model - III
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 9 - Application of Rescorla Wagner Model - IV
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 10 - Limitations of Rescorla Wagner Model
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 11 - Introduction of Reinforcement Learning - I : Thorndike’s view, Tolman’s views, Skinner Box
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 12 - Introduction of Reinforcement Learning - II : Classification, Thorndike’s view, Tolman’s views, Skinner Box (Continued...)
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 13 - Introduction of Reinforcement Learning - III : Understanding scheduling of reinforcers in operant conditioning
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 14 - Sign Tracking vs Goal Oriented/Tracking; Linking complex behaviors to simple molecules
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 15 - Sign Tracking vs Goal Oriented; Learning Linking complex behaviors to simple molecules - II
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 16 - Memory in Molecular Terms - I : Protein synthesis in memory consolidation
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 17 - Memory in Molecular Terms - II : Long term potentiation
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 18 - Memory in Molecular Terms - III : Properties of a memory molecule
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 19 - Memory in Molecular Terms - IV : Remote memory and its characteristics
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 20 - Memory in Molecular Terms - V : Selective labelling of memory encoding neurons and their manipulation
Link NOC:Drug Delivery: Principles and Engineering Lecture 1 - Drug Delivery Introduction and Pharmacokinetics
Link NOC:Drug Delivery: Principles and Engineering Lecture 2 - Pharmacokinetics (Continued...)
Link NOC:Drug Delivery: Principles and Engineering Lecture 3 - Pro-drugs and Polymers Introduction
Link NOC:Drug Delivery: Principles and Engineering Lecture 4 - Polymers - Synthesis
Link NOC:Drug Delivery: Principles and Engineering Lecture 5 - Polymers - Properties
Link NOC:Drug Delivery: Principles and Engineering Lecture 6 - Biomedical Polymers
Link NOC:Drug Delivery: Principles and Engineering Lecture 7 - Biodegradable Polymers and Polymer Drug Conjugates - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 8 - Polymer Drug Conjugates - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 9 - Research Paper Discussion and Diffusion Controlled Systems
Link NOC:Drug Delivery: Principles and Engineering Lecture 10 - Controlled Release: Reservoir System - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 11 - Controlled Release: Reservoir Systems and Non-erodible Systems
Link NOC:Drug Delivery: Principles and Engineering Lecture 12 - Controlled Release: Non-erodible Systems and Erodible systems
Link NOC:Drug Delivery: Principles and Engineering Lecture 13 - Math Exercise
Link NOC:Drug Delivery: Principles and Engineering Lecture 14 - Hydrogels - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 15 - Hydrogels - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 16 - Hydrogels - III
Link NOC:Drug Delivery: Principles and Engineering Lecture 17 - Hydrogels - IV
Link NOC:Drug Delivery: Principles and Engineering Lecture 18 - Nano and Micro-particles - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 19 - Nano and Micro-particles - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 20 - Nano and Micro-particles - III
Link NOC:Drug Delivery: Principles and Engineering Lecture 21 - Nano and Micro-particles - IV
Link NOC:Drug Delivery: Principles and Engineering Lecture 22 - Nano and Micro-particles - V
Link NOC:Drug Delivery: Principles and Engineering Lecture 23 - Nano and Micro-particles - VI
Link NOC:Drug Delivery: Principles and Engineering Lecture 24 - Nano and Micro-particles - VII
Link NOC:Drug Delivery: Principles and Engineering Lecture 25 - Protein Adsorption - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 26 - Protein Adsorption - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 27 - Protein Adsorption - III
Link NOC:Drug Delivery: Principles and Engineering Lecture 28 - Tissue Engineering - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 29 - Tissue Engineering - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 30 - Tissue Engineering - III
Link NOC:Drug Delivery: Principles and Engineering Lecture 31 - Drug Delivery in Tissue Engineering - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 32 - Drug Delivery in Tissue Engineering - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 33 - Implant Associated Infections - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 34 - Implant Associated Infections - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 35 - Route Specific Delivery: Oral Route - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 36 - Route Specific Delivery: Oral Route - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 37 - Route Specific Delivery: Oral and Subcutaneous Route
Link NOC:Drug Delivery: Principles and Engineering Lecture 38 - Route Specific Delivery: Intramuscular, Transdermal - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 39 - Route Specific Delivery: Transdermal - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 40 - Route Specific Delivery: Transdermal and Inhalation Route
Link NOC:Drug Delivery: Principles and Engineering Lecture 41 - Route Specific Delivery: Inhalation - II, Buccal and Rectal Administration
Link NOC:Drug Delivery: Principles and Engineering Lecture 42 - Research Paper Discussion: Dry Powder Particle Delivery
Link NOC:Drug Delivery: Principles and Engineering Lecture 43 - Route Specific Delivery: Intra-articular and Intravenous Administration
Link NOC:Drug Delivery: Principles and Engineering Lecture 44 - Intravenous Administration: Approved Nanocarriers and Immune System
Link NOC:Drug Delivery: Principles and Engineering Lecture 45 - Immune System - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 46 - Complement System and Blood Clotting
Link NOC:Drug Delivery: Principles and Engineering Lecture 47 - Blood Clotting and Hemocompatibility of Materials; Adaptive Immune Response
Link NOC:Drug Delivery: Principles and Engineering Lecture 48 - Adaptive Immune Response and Vaccine
Link NOC:Drug Delivery: Principles and Engineering Lecture 49 - Vaccines
Link NOC:Drug Delivery: Principles and Engineering Lecture 50 - Vaccines and Immuno-isolated Cell Therapy
Link NOC:Drug Delivery: Principles and Engineering Lecture 51 - Immuno-isolated Cell Therapy
Link NOC:Drug Delivery: Principles and Engineering Lecture 52 - Immuno-isolated Cell and Gene Therapy
Link NOC:Drug Delivery: Principles and Engineering Lecture 53 - Gene Delivery: Vectors
Link NOC:Drug Delivery: Principles and Engineering Lecture 54 - Gene Delivery: Polymers
Link NOC:Drug Delivery: Principles and Engineering Lecture 55 - Genes as Vaccines
Link NOC:Drug Delivery: Principles and Engineering Lecture 56 - Vaccines: Gene Delivery and Other Variants
Link NOC:Drug Delivery: Principles and Engineering Lecture 57 - Cancer Vaccines
Link NOC:Drug Delivery: Principles and Engineering Lecture 58 - Cancer Vaccine: Immunotherapy
Link NOC:Drug Delivery: Principles and Engineering Lecture 59 - Responsive Delivery Systems - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 60 - Responsive Delivery Systems - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 61 - Targeted Drug Delivery System
Link NOC:Drug Delivery: Principles and Engineering Lecture 62 - Targeted Drug Delivery System: Research Paper Discussion
Link NOC:Drug Delivery: Principles and Engineering Lecture 63 - Nanotoxicology and Translation Pathways
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 1 - Introduction
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 2 - Substrate
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 3 - Substrate (Continued...)
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 4 - Introduction to cleanroom
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 5 - Contamination and surface cleaning
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 6 - Advanced cleaning techniques
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 7 - Defects
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 8 - Diffusion
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 9 - Diffusion - Advanced Concepts
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 10 - Ion Implantation
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 11 - Ion Implantation (Continued...)
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 12 - Native Films
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 13 - Native Films: Advanced Concepts
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 14 - Native Films: Defects at Si/SiO2 interface
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 15 - Methods and Some Definitions
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 16 - Chemical Vapor Depostion: Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 17 - Chemical Vapor Depostion: Precursor Transport
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 18 - Chemical Vapor Depostion: Types of CVD Equipment
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 19 - Chemical Vapor Depostion: Nucleation and Growth
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 20 - Chemical Vapor Depostion: Other Details
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 21 - Atomic Layer Depostion
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 22 - Atomic Layer Depostion (Continued...)
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 23 - Physical Vapor Deposition: Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 24 - Physical Vapor Deposition: Evaporation
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 25 - Physical Vapor Deposition: Sputtering
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 26 - Mettalization: Contact resistance
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 27 - Mettalization: Electromigration and Epilogue
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 28 - Pattern Transfer Bascis
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 29 - Optical lithography basics: resist process - 1
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 30 - Optical lithography basics: resist process - 2
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 31 - Optical Lithography: Contact and Proximity printing
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 32 - Optical Lithography: Stepper and Scanner
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 33 - Projection Lithography: Image formation basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 34 - Projection Lithography: Image formation in photoresist
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 35 - Optical lithography: Surface Reflection
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 36 - Optical Lithography: Mask Technology
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 37 - Lithography process technology glossary
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 38 - Optical Lithography: Resolution enhancement
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 39 - Electron beam lithography: Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 40 - Electron beam lithography: Resist process
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 41 - Emerging lithography techniques
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 42 - Etching Figures of Merit
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 43 - Wet etching Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 44 - Wet Ething Recipes
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 45 - Wet Ething Recipes
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 46 - Dry etch: Plasma Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 47 - Dry etch: Plasma etching basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 48 - Dry etch: Plasma tool configuration
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 49 - Dry etch: Etch mechanism
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 50 - Dry etch: Etch chemistry
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 51 - Chemical Mechanical Polishing (CMP): Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 52 - Chemical Mechanical Polishing (CMP): Tool and process
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 53 - Design for Manufacturability - 1
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 54 - Design for Manufacturability - 2
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 55 - Design for Manufacturability: Case study
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 56 - Process integration
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 57 - PV integration
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 58 - CMOS integration
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 59 - Lab demo: Silicon Nitride cantilever fabrication - 1
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 60 - Lab demo: Silicon Nitride cantilever fabrication - 2
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 61 - CMOS process for photonics application
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 1 - Optical Focus and Localisation of Light
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 2 - Relating Photon's Momentum to Spot Size
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 3 - Shortest Pulse of Light: How fast can we shutter the light?
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 4 - Behaviour of light through polarizers: Introduction
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 5 - Nature of Light: Introduction to Photo Multiplier Tubes
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 6 - Revisiting Polarisation Through Ket Vectors
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 7 - Light through Polarisers: Detailed Description - I
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 8 - Light through Polarisers: Detailed Description - II
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 9 - Time Dependent Perturbation Theory (TDPT): Overview
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 10 - TDPT in Steps-1: Unperturbed and Perturbed Hamiltonian
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 11 - TDPT in Steps-2: Introducing the switch and first approximation
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 12 - TDPT in Steps-3: Finding the co-efficients
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 13 - Fermi's Golden Rule
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 14 - Beer Lambert's Law from TDPT
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 15 - Einstein's Phenomenology
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 16 - Einstein's Coefficients, Fluorescence and Lifetime
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 17 - Fock States and Photonic Treatment of Light
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 18 - Operators in Fock State Space
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 19 - Light Matter Interaction and Rudimentary Feynman Diagrams
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 20 - Emergence of Spontaneous and Stimulated Emission Processes
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 21
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 22
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 23
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 24
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 25
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 26 - Introduction to LASER
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 27 - LASER population dynamics
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 28 - LASER population dynamics - Part- 2
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 29 - Real world LASER and characteristics of LASER emission
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 30 - Temporal and Spatial Coherence
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 31 - Transverse and Longitudinal modes of LASER
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 32 - Pulsed LASER
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 33 - Q-switching in detail
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 34 - Q-switching in detail - Part 2
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 35 - Basics of mode locking
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 36 - Basics of mode locking - Part 2
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 37 - Pulse compression
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 38 - Real world system (Mode lock Part-2)
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 39 - TEM mode
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 40 - Alignment basics
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 41 - Non-Linear Optics
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 42 - Confocal Detection
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 43 - Interference Filters
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 44 - Laser Scanning System - 1
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 45 - Laser Scanning System - 2
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 46 - Alignment of Moving Beams
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 47 - Decoding an Objective Lens - 1
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 48 - Decoding an Objective Lens - 2
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 49 - Designing Lens Systems
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 50 - Astigmatism and Field Curvature
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 51 - Intro to Lab Session
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 52 - Optics in LAB: Aligning light through an optical fiber - 1
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 53 - Optics in Lab: Telescope
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 54 - Kinematic Mounts
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 55 - Alignment with out iris
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 56 - Fluorescecne Spectrometer - 1
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 57 - Fluorescecne Spectrometer - 2
Link NOC:Optical Spectroscopy and Microscopy: Fundamentals of Optical Measurements and Instrumentation Lecture 58 - Ti:Sapphire Laser and Two Photon Fluorescecne
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 1 - Introduction to Cell Biology, Cell components, organization and processes - Part I
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 2 - Introduction to Cell Biology, Cell components, organization and processes - Part II
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 3 - DNA: The genetic material - Part I
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 4 - DNA: The genetic material - Part II
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 5 - Regulation of the cell cycle - Part I
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 6 - Regulation of the cell cycle - Part II
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 7 - Checkpoints: The DNA damage and DNA replication checkpoints
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 8 - The Ubiquitin Proteasome system
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 9 - S-phase: Regulation of entry into S-phase and DNA Replication
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 10 - DNA replication - Part I
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 11 - DNA Replication - Part II
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 12 - DNA Replication - Part III
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 13 - DNA Replication - Part IV
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 14 - Mitosis - Part I
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 15 - Cytokinesis
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 16 - Aging and Senescence
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 17 - Apoptosis - Part I
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 18 - Apoptosis - Part II
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 19 - Meiosis - Part I
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 20 - Meiosis - Part II
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 21 - Nuclear organization
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 22 - SMC proteins and chromosome organization - Real-Time imaging of DNA loop-extrusion by SMC complexes
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 23 - The cohesin complex and its functions - The mysterious biological function of chromosome loops
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 24 - Chromatin organization
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 25 - SMC proteins and chromosome organization - Introduction
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 26 - Meiosis - Part III
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 27 - Mitosis - Part II
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 28 - Cell diversity and properties of specialized cells-Budding yeast as a model system
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 29 - The Plant Cell
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 30 - Stem cells - Part I Intro-SL
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 31 - Stem cells - Part II
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 32 - Nerve cells
Link NOC:Cell Biology: Cellular Organization, Division and Processes Lecture 33 - The Cancer Cell