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- Berkeley University of California - Video Lectures
- 1- Biology 1A - General Biology Lecture - Spring 2010
- Instructor: Gary L. FIRESTONE - Michael MEIGHAN - Jasper D. RINE - Jennifer A DOUDNA
- Lecture 1: Course introduction.Introduction to macromolecules. Protein structure and function.
- Lecture 2: Structure and function: lipids, carbohydrate and nucleic acids.
- Lecture 3: Cell structure and organization -#1
- Lecture 4: Cell structure and organization -#2
- Lecture 5: The structure of biological membranes.
- Lecture 6: Cellular metabolism and biological catalyst
- Lecture 7: Enzyme structure.
- Lecture 8: Regulation of enzymatic activity.
- Lecture 9: Introduction to bioenergetics.
- Lecture 10: Cellular energy production and anaerobic processes.
- Lecture 11: Cellular energy production and aerobic processes.
- Lecture 12: Photosynthesis-the light reactions.
- Lecture 13: Photosynthesis-CO2 fixation and related processes.
- Lecture 14: I, PCR. Microbial Genetics and Evolution-Chromosomes, Plasmids, and Phage
- Lecture 15: DNA Replication and the PCR.
- Lecture 16: Cell Cycle, Mitosis and Reproduction of Cells
- Lecture 17: Chromosomes, Checkpoints, and Cancer
- Lecture 18: Meiosis and Sexual Life Cycle
- Lecture 19: Gregor Mendel and 2 of Biologys 3 Laws
- Lecture 20: Recombination, Linkage and Mapping
- Lecture 21: Transcription
- Lecture 22: The Genetic Code and Translation
- Lecture 23: Prokaryotic Gene Regulation
- Lecture 24: Eukaryotic Gene Expression and Regulation
- Lecture 25: Human Genetics and Epigenetics
- Lecture 26: GMOs and Organismal Cloning
- Lecture 27: Multi-cellularity: Cell Shape and function, Tissue specialization, homeostasis
- Lecture 28: Intercellular and Physiological Communication: Hormones, Receptors, and the Endocrine System-Part I
- Lecture 29: Intercellular and Physiological Communication - Hormones, Receptors, and the Endocrine System-Part II
- Lecture 30: Reproductive system-Part I
- Lecture 31: Reproductive system-Part II
- Lecture 32: Fertilization and embryogenesis
- Lecture 33: Developmental strategies and mechanisms
- Lecture 34: Digestive system
- Lecture 35: Circulatory and Respiratory systems
- Lecture 36: Immune system
- Lecture 37: Excretory system and kidney function
- Lecture 38: Cell and Tissue dysfunction, Cancer and Experimental Strategies to Develop Anti-cancer Therapeutics
- Lecture 39: Review
- 2- Molecular and Cell Biology 130 - Cell Biology- Spring 2009
- Instructor: Randy W SCHEKMAN - Kunxin LUO - David G.DRUBIN
- Lecture 1: Membrane Structure: Lipids
- Lecture 2: Membrane Structure: Proteins
- Lecture 3: Membrane Structure: Dynamics
- Lecture 4: Membrane Transport: Permeases and Channels
- Lecture 5: Membrane Transport: Nucleocytoplasmic Exchange
- Lecture 6: Membrane Assembly: Signal Hypothesis
- Lecture 7: Membrane Assembly: Mechanism
- Lecture 8: Membrane Assembly: Topology In class quiz for first 15 minutes.
- Lecture 9: Cholesterol Regulation Guest Lecturer: Iswar Hariharan
- Lecture 9: Publishing error, Please view Lecture 9 above
- Lecture 10: Membrane Vesicular Transport
- Lecture 11: Lysosomal Protein Transport
- Lecture 12: Action Potential
- Lecture 13: Synaptic Transmission
- Lecture 14: Membrane Fusion
- Lecture 15: Midterm I
- Lecture 16: Visualizing cells: principles of microscopy
- Lecture 17: Actin filaments: structural and dynamic properties
- Lecture 18: Actin-binding proteins and cell migration
- Lecture 19: Actin and myosin in skeletal muscle contraction
- Lecture 20: Regulation of contraction in muscle and nonmuscle cells
- Lecture 21: Cell Adhesion, motility and division
- Lecture 22: Intermediate filaments and septins
- Lecture 23: Microtubules: structure and dynamic properties
- Lecture 24: Regulation of microtubule organization and motility
- Lecture 25: Nuclear and chromatin structure
- Lecture 26: Mitosis and cell division
- Lecture 27: Mitotic spindle assembly and function
- Lecture 28: Meiosis
- Lecture 29: MIdterm II
- Lecture 30: Cell communication: ligand and receptors
- Lecture 31: Receptors
- Lecture 32: G-protein coupled receptor signaling I
- Lecture 33: G-protein coupled receptor signaling II
- Lecture 34: Receptor tyrosine kinase signaling
- Lecture 35: The Ras-MAP kinase pathway
- Lecture 36: Regulation of cell growth
- Lecture 37: The cell cycle I
- Lecture 38: The cell cycle II
- Lecture 39: The cell cycle III
- Lecture 40: Checkkpoints
- Lecture 41: Apoptosis
- Lecture 42: Cancer
- Lecture 43: Cancer - Review
- 3- Molecular and Cell Biology 110 - General Biochemistry and Molecular Biology - Fall 2009
- Instructor: Qiang ZHOU - qing zhong - Thomas C. ALBER
- Part 1: DNA replication & Repair
- (Note in this part i added the Fall 2007 Lectures as well, because in 2009 lectures
- there are 2 and 1/2 lectures available only audio by the university)
- Fall 2009
- ---------
- Lecture 1: Nuclic acid products of polymearse machines
- Lecture 2:
- Lecture 3: DNA replication fork
- Lecture 4:
- Lecture 5: DNA
- Lecture 6: Replication origins & ends -1
- Lecture 7: Replication origins & ends -2 (Visuals available only for the first 35 minutes of lecture)
- Lecture 8: Replication origins & ends -3
- Lecture 9: Replication origins & ends -4
- Lecture 10: Replication origins & ends -5
- Lecture 11: Genome structures
- Lecture 12: Genomics & Bioinformatics
- Lecture 13: Human disease genes
- Lecture 14: DNA damage and repair
- Fall 2007
- --------
- Lecture 1: Variations in DNA Structure
- Lecture 2: Principles of RNA Structure and Recognition
- Lecture 3: DNA Polymerases
- Lecture 4: The DNA Replication Fork
- Lecture 5: Other Replication Factors
- Lecture 6: Replication Origin and Ends - Regulation
- Lecture 7: DNA Analysis Methods I
- Lecture 8: DNA Analysis Methods II
- Lecture 9: Chromatin and Chromosome Structure
- Lecture 10: Genome Structures
- Lecture 11: Genomics and Bioinformatics
- Lecture 12: Human Disease Genes
- Lecture 13: DNA Damage and Repair
- Lecture 14: Recombination and Repair in Cancer
- Part 2: Regulation of gene expression
- Lecture 1: Prokaryotic transcription apparatus (part 1)
- Lecture 2: Prokaryotic transcription apparatus (part 2)
- Lecture 3: Control of prokaryotic transcription (part 1)
- Lecture 4: Control of prokaryotic transcription (part 2)
- Lecture 5: Eukaryotic transcription apparatus & methods to analyse transcription ( part 1)
- Lecture 6: Eukaryotic transcription apparatus & methods to analyse transcription ( part 2)
- Lecture 7: Eukaryotic transcription apparatus & methods to analyse transcription ( part 3)
- Lecture 8: Control of eukaryotic transcription (part 1)
- Lecture 9: Control of eukaryotic transcription (part 2)
- Lecture 10: Control of eukaryotic transcription (part 3)
- Lecture 11: RNA processing (part 1)
- Lecture 12: RNA processing (part 2)
- Lecture 13: Control of translation (part 1)
- Lecture 14: Control of translation (part 2)
- Part 3: Protein Function
- Lecture 1: Systems to study biology
- Lecture 2: Membrane structure
- Lecture 3: Types of membrane proteins
- Lecture 4: Molecular biology of the cell
- Lecture 5: Intracellular compartment & protein sorting
- Lecture 6: intacellular vesicular traffic
- Lecture 7: IPS
- Lecture 8: Mechanisms of cell communication
- Lecture 9: Signaling proteins
- Lecture 10: Cytoskeletal filements
- Lecture 11: Cell cycle
- Lecture 12: Apoptosis (instructor switches to chalkboard 27 minutes in, and switches back to powerpoint 13 minutes later)
- Lecture 13: Autophagy
- 4- Integrative Biology 131 - General Human Anatomy- Fall 2008
- Instructor Marian C. DIAMOND
- (note:Lectures from 1-7 are from Fall 2005 course,because they are not available from Fall 2008 course by the university)
- Lecture 1: Organization of Body
- Lecture 2: Skeletal System-1
- Lecture 3: Skeletal System-2
- Lecture 4: Skeletal System-3
- Lecture 5: Skeletal System-4
- Lecture 6: Skeletal System-5
- Lecture 7: Skeletal System-6
- Lecture 8: Introduction; Muscular System I
- Lecture 9: Muscular System II
- Lecture 10: Muscular System III
- Lecture 11: Muscular System IV
- Lecture 12: Muscular System V; Digestive System I
- Lecture 13: Digestive System II
- Lecture 14: Digestive System III; Liver I
- Lecture 15: Liver II
- Lecture 16: Digestive System IV; Hematology I
- Lecture 17: Hematology II
- Lecture 18: Cardiology I
- Lecture 19: Cardiology II
- Lecture 20: Blood - Vascular System I
- Lecture 21: Vascular System II; Lymphatic System
- Lecture 22: Lymphatic Vessels and Lymph; Respiratory System I
- Lecture 23: Respiratory System II
- Lecture 24: Respiratory System III, Nervous System I
- Lecture 25: Nervous System II
- Lecture 26: Nervous System III
- Lecture 27: Nervous System IV
- Lecture 28: Nervous System V
- Lecture 29: Nervous System VI
- Lecture 30: Nervous System VII
- Lecture 31: Nervous System VIII
- Lecture 32: Nervous System IX
- Lecture 33: Nervous System X
- Lecture 34: Nervous System XI
- Lecture 35: Nervous System XII: Inner Ear; Urinary System I
- Lecture 36: Urinary System II; Endoctrine System I
- Lecture 37: Endoctrine System II
- Lecture 38: Endoctrine System III
- Lecture 39: Female Reproductive System
- Lecture 40: Male Reproductive System
- Lecture 41: Male Reproductive System - continued
- Lecture 42:
- 5- Nutritional Science 10 - Introduction to Human Nutrition - Fall 2007
- Instructor Nancy Amy
- This course provides an overview of digestion and metabolism of nutrients.
- Foods are discussed as a source of nutrients, and the evidence is reviewed as to the effects of nutrition on health.
- The emphasis of the course is on issues of current interest and on worldwide problems of food and nutrition.
- Lecture 1: Course Introduction
- Lecture 2: Designing a Diet
- Lecture 3: Digestion
- Lecture 4: Carbohydrates I
- Lecture 5: Carbohydrates II
- Lecture 6: Lipids I
- Lecture 7: Lipids II
- Lecture 8: Protein
- Lecture 9: Energy Metabolism
- Lecture 10: Nutrients Involved in Energy Metabolism
- Lecture 11: Nutrients Involved in Fluid and Electrolyte Balance
- Lecture 12: Blood Health and Immunity
- Lecture 13: Nutrients Involved in Blood Health and Immunity
- Lecture 14: Alcohol
- Lecture 15: Water
- Lecture 16: History of Vitamins
- Lecture 17: Vitamin D - The Sunshine Vitamin
- Lecture 18: Energy Balance and Obesity
- Lecture 19: Body Weight
- Lecture 20: Sports Nutrition
- Lecture 21: Nutrition in Pregnancy and Lactation
- Lecture 22: Diet and Health
- Lecture 23: Malnutrition
- Lecture 24: Eating Disorders
- Lecture 25: Food Safety
- Extra
- -----
- 1:Iron
- 2:Trace Minerals
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