Berkeley University of California - Video Lectures1- Biology 1

1. Berkeley University of California - Video Lectures
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10. 1- Biology 1A - General Biology Lecture - Spring 2010
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13. Instructor: Gary L. FIRESTONE - Michael MEIGHAN - Jasper D. RINE - Jennifer A DOUDNA
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16. Lecture 1: Course introduction.Introduction to macromolecules. Protein structure and function.
17. Lecture 2: Structure and function: lipids, carbohydrate and nucleic acids.
18. Lecture 3: Cell structure and organization -#1
19. Lecture 4: Cell structure and organization -#2
20. Lecture 5: The structure of biological membranes.
21. Lecture 6: Cellular metabolism and biological catalyst
22. Lecture 7: Enzyme structure.
23. Lecture 8: Regulation of enzymatic activity.
24. Lecture 9: Introduction to bioenergetics.
25. Lecture 10: Cellular energy production and anaerobic processes.
26. Lecture 11: Cellular energy production and aerobic processes.
27. Lecture 12: Photosynthesis-the light reactions.
28. Lecture 13: Photosynthesis-CO2 fixation and related processes.
29. Lecture 14: I, PCR. Microbial Genetics and Evolution-Chromosomes, Plasmids, and Phage
30. Lecture 15: DNA Replication and the PCR.
31. Lecture 16: Cell Cycle, Mitosis and Reproduction of Cells
32. Lecture 17: Chromosomes, Checkpoints, and Cancer
33. Lecture 18: Meiosis and Sexual Life Cycle
34. Lecture 19: Gregor Mendel and 2 of Biologys 3 Laws
35. Lecture 20: Recombination, Linkage and Mapping
36. Lecture 21: Transcription
37. Lecture 22: The Genetic Code and Translation
38. Lecture 23: Prokaryotic Gene Regulation
39. Lecture 24: Eukaryotic Gene Expression and Regulation
40. Lecture 25: Human Genetics and Epigenetics
41. Lecture 26: GMOs and Organismal Cloning
42. Lecture 27: Multi-cellularity: Cell Shape and function, Tissue specialization, homeostasis
43. Lecture 28: Intercellular and Physiological Communication: Hormones, Receptors, and the Endocrine System-Part I
44. Lecture 29: Intercellular and Physiological Communication - Hormones, Receptors, and the Endocrine System-Part II
45. Lecture 30: Reproductive system-Part I
46. Lecture 31: Reproductive system-Part II
47. Lecture 32: Fertilization and embryogenesis
48. Lecture 33: Developmental strategies and mechanisms
49. Lecture 34: Digestive system
50. Lecture 35: Circulatory and Respiratory systems
51. Lecture 36: Immune system
52. Lecture 37: Excretory system and kidney function
53. Lecture 38: Cell and Tissue dysfunction, Cancer and Experimental Strategies to Develop Anti-cancer Therapeutics
54. Lecture 39: Review
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60. 2- Molecular and Cell Biology 130 - Cell Biology- Spring 2009
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63. Instructor: Randy W SCHEKMAN - Kunxin LUO - David G.DRUBIN
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66. Lecture 1: Membrane Structure: Lipids
67. Lecture 2: Membrane Structure: Proteins
68. Lecture 3: Membrane Structure: Dynamics
69. Lecture 4: Membrane Transport: Permeases and Channels
70. Lecture 5: Membrane Transport: Nucleocytoplasmic Exchange
71. Lecture 6: Membrane Assembly: Signal Hypothesis
72. Lecture 7: Membrane Assembly: Mechanism
73. Lecture 8: Membrane Assembly: Topology In class quiz for first 15 minutes.
74. Lecture 9: Cholesterol Regulation Guest Lecturer: Iswar Hariharan
75. Lecture 9: Publishing error, Please view Lecture 9 above
76. Lecture 10: Membrane Vesicular Transport
77. Lecture 11: Lysosomal Protein Transport
78. Lecture 12: Action Potential
79. Lecture 13: Synaptic Transmission
80. Lecture 14: Membrane Fusion
81. Lecture 15: Midterm I
82. Lecture 16: Visualizing cells: principles of microscopy
83. Lecture 17: Actin filaments: structural and dynamic properties
84. Lecture 18: Actin-binding proteins and cell migration
85. Lecture 19: Actin and myosin in skeletal muscle contraction
86. Lecture 20: Regulation of contraction in muscle and nonmuscle cells
87. Lecture 21: Cell Adhesion, motility and division
88. Lecture 22: Intermediate filaments and septins
89. Lecture 23: Microtubules: structure and dynamic properties
90. Lecture 24: Regulation of microtubule organization and motility
91. Lecture 25: Nuclear and chromatin structure
92. Lecture 26: Mitosis and cell division
93. Lecture 27: Mitotic spindle assembly and function
94. Lecture 28: Meiosis
95. Lecture 29: MIdterm II
96. Lecture 30: Cell communication: ligand and receptors
97. Lecture 31: Receptors
98. Lecture 32: G-protein coupled receptor signaling I
99. Lecture 33: G-protein coupled receptor signaling II
100. Lecture 34: Receptor tyrosine kinase signaling
101. Lecture 35: The Ras-MAP kinase pathway
102. Lecture 36: Regulation of cell growth
103. Lecture 37: The cell cycle I
104. Lecture 38: The cell cycle II
105. Lecture 39: The cell cycle III
106. Lecture 40: Checkkpoints
107. Lecture 41: Apoptosis
108. Lecture 42: Cancer
109. Lecture 43: Cancer - Review
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114. 3- Molecular and Cell Biology 110 - General Biochemistry and Molecular Biology - Fall 2009
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117. Instructor: Qiang ZHOU - qing zhong - Thomas C. ALBER
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120. Part 1: DNA replication & Repair
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122. (Note in this part i added the Fall 2007 Lectures as well, because in 2009 lectures
123. there are 2 and 1/2 lectures available only audio by the university)
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126. Fall 2009
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128. Lecture 1: Nuclic acid products of polymearse machines
129. Lecture 2:
130. Lecture 3: DNA replication fork
131. Lecture 4:
132. Lecture 5: DNA
133. Lecture 6: Replication origins & ends -1
134. Lecture 7: Replication origins & ends -2 (Visuals available only for the first 35 minutes of lecture)
135. Lecture 8: Replication origins & ends -3
136. Lecture 9: Replication origins & ends -4
137. Lecture 10: Replication origins & ends -5
138. Lecture 11: Genome structures
139. Lecture 12: Genomics & Bioinformatics
140. Lecture 13: Human disease genes
141. Lecture 14: DNA damage and repair
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144. Fall 2007
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147. Lecture 1: Variations in DNA Structure
148. Lecture 2: Principles of RNA Structure and Recognition
149. Lecture 3: DNA Polymerases
150. Lecture 4: The DNA Replication Fork
151. Lecture 5: Other Replication Factors
152. Lecture 6: Replication Origin and Ends - Regulation
153. Lecture 7: DNA Analysis Methods I
154. Lecture 8: DNA Analysis Methods II
155. Lecture 9: Chromatin and Chromosome Structure
156. Lecture 10: Genome Structures
157. Lecture 11: Genomics and Bioinformatics
158. Lecture 12: Human Disease Genes
159. Lecture 13: DNA Damage and Repair
160. Lecture 14: Recombination and Repair in Cancer
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163. Part 2: Regulation of gene expression
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165. Lecture 1: Prokaryotic transcription apparatus (part 1)
166. Lecture 2: Prokaryotic transcription apparatus (part 2)
167. Lecture 3: Control of prokaryotic transcription (part 1)
168. Lecture 4: Control of prokaryotic transcription (part 2)
169. Lecture 5: Eukaryotic transcription apparatus & methods to analyse transcription ( part 1)
170. Lecture 6: Eukaryotic transcription apparatus & methods to analyse transcription ( part 2)
171. Lecture 7: Eukaryotic transcription apparatus & methods to analyse transcription ( part 3)
172. Lecture 8: Control of eukaryotic transcription (part 1)
173. Lecture 9: Control of eukaryotic transcription (part 2)
174. Lecture 10: Control of eukaryotic transcription (part 3)
175. Lecture 11: RNA processing (part 1)
176. Lecture 12: RNA processing (part 2)
177. Lecture 13: Control of translation (part 1)
178. Lecture 14: Control of translation (part 2)
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180. Part 3: Protein Function
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182. Lecture 1: Systems to study biology
183. Lecture 2: Membrane structure
184. Lecture 3: Types of membrane proteins
185. Lecture 4: Molecular biology of the cell
186. Lecture 5: Intracellular compartment & protein sorting
187. Lecture 6: intacellular vesicular traffic
188. Lecture 7: IPS
189. Lecture 8: Mechanisms of cell communication
190. Lecture 9: Signaling proteins
191. Lecture 10: Cytoskeletal filements
192. Lecture 11: Cell cycle
193. Lecture 12: Apoptosis (instructor switches to chalkboard 27 minutes in, and switches back to powerpoint 13 minutes later)
194. Lecture 13: Autophagy
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200. 4- Integrative Biology 131 - General Human Anatomy- Fall 2008
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203. Instructor Marian C. DIAMOND
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206. (note:Lectures from 1-7 are from Fall 2005 course,because they are not available from Fall 2008 course by the university)
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209. Lecture 1: Organization of Body
210. Lecture 2: Skeletal System-1
211. Lecture 3: Skeletal System-2
212. Lecture 4: Skeletal System-3
213. Lecture 5: Skeletal System-4
214. Lecture 6: Skeletal System-5
215. Lecture 7: Skeletal System-6
216. Lecture 8: Introduction; Muscular System I
217. Lecture 9: Muscular System II
218. Lecture 10: Muscular System III
219. Lecture 11: Muscular System IV
220. Lecture 12: Muscular System V; Digestive System I
221. Lecture 13: Digestive System II
222. Lecture 14: Digestive System III; Liver I
223. Lecture 15: Liver II
224. Lecture 16: Digestive System IV; Hematology I
225. Lecture 17: Hematology II
226. Lecture 18: Cardiology I
227. Lecture 19: Cardiology II
228. Lecture 20: Blood - Vascular System I
229. Lecture 21: Vascular System II; Lymphatic System
230. Lecture 22: Lymphatic Vessels and Lymph; Respiratory System I
231. Lecture 23: Respiratory System II
232. Lecture 24: Respiratory System III, Nervous System I
233. Lecture 25: Nervous System II
234. Lecture 26: Nervous System III
235. Lecture 27: Nervous System IV
236. Lecture 28: Nervous System V
237. Lecture 29: Nervous System VI
238. Lecture 30: Nervous System VII
239. Lecture 31: Nervous System VIII
240. Lecture 32: Nervous System IX
241. Lecture 33: Nervous System X
242. Lecture 34: Nervous System XI
243. Lecture 35: Nervous System XII: Inner Ear; Urinary System I
244. Lecture 36: Urinary System II; Endoctrine System I
245. Lecture 37: Endoctrine System II
246. Lecture 38: Endoctrine System III
247. Lecture 39: Female Reproductive System
248. Lecture 40: Male Reproductive System
249. Lecture 41: Male Reproductive System - continued
250. Lecture 42:
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256. 5- Nutritional Science 10 - Introduction to Human Nutrition - Fall 2007
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259. Instructor Nancy Amy
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262. This course provides an overview of digestion and metabolism of nutrients.
263. Foods are discussed as a source of nutrients, and the evidence is reviewed as to the effects of nutrition on health.
264. The emphasis of the course is on issues of current interest and on worldwide problems of food and nutrition.
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267. Lecture 1: Course Introduction
268. Lecture 2: Designing a Diet
269. Lecture 3: Digestion
270. Lecture 4: Carbohydrates I
271. Lecture 5: Carbohydrates II
272. Lecture 6: Lipids I
273. Lecture 7: Lipids II
274. Lecture 8: Protein
275. Lecture 9: Energy Metabolism
276. Lecture 10: Nutrients Involved in Energy Metabolism
277. Lecture 11: Nutrients Involved in Fluid and Electrolyte Balance
278. Lecture 12: Blood Health and Immunity
279. Lecture 13: Nutrients Involved in Blood Health and Immunity
280. Lecture 14: Alcohol
281. Lecture 15: Water
282. Lecture 16: History of Vitamins
283. Lecture 17: Vitamin D - The Sunshine Vitamin
284. Lecture 18: Energy Balance and Obesity
285. Lecture 19: Body Weight
286. Lecture 20: Sports Nutrition
287. Lecture 21: Nutrition in Pregnancy and Lactation
288. Lecture 22: Diet and Health
289. Lecture 23: Malnutrition
290. Lecture 24: Eating Disorders
291. Lecture 25: Food Safety
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293. Extra
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295. 1:Iron
296. 2:Trace Minerals