5. How Do the Various Organic Forms of Nitrogen Arise?
02:20
6. The Nitrogen Cycle
00:25
7. How Do the Various Organic Forms of Nitrogen Arise?
00:07
8. The Nitrogen Cycle
01:27
9. How Do the Various Organic Forms of Nitrogen Arise?
00:42
10. Which Metabolic Pathways Allow Organisms to Live on Inorganic Forms of Nitrogen?
01:08
11. Nitrate Assimilation is the Principal Pathway for Ammonium Biosynthesis
01:36
12. Nitrogen Fixation Is by Nitrogenase Complex
00:00
13. Nitrate Assimilation is the Principal Pathway for Ammonium Biosynthesis
00:00
14. Which Metabolic Pathways Allow Organisms to Live on Inorganic Forms of Nitrogen?
00:00
15. How Do the Various Organic Forms of Nitrogen Arise?
00:34
16. The Nitrogen Cycle
00:00
17. How Do the Various Organic Forms of Nitrogen Arise?
00:01
18. Which Metabolic Pathways Allow Organisms to Live on Inorganic Forms of Nitrogen?
00:01
19. Nitrate Assimilation is the Principal Pathway for Ammonium Biosynthesis
00:03
20. Nitrogen Fixation Is by Nitrogenase Complex
02:26
21. The Fate of Ammonium
03:23
22. The Glutamate Dehydrogenase Reaction
00:58
23. The enzymatic reaction catalyzed by glutamine synthetase
00:00
24. The Glutamate Dehydrogenase Reaction
01:06
25. The Fate of Ammonium
00:01
26. The Glutamate Dehydrogenase Reaction
00:12
27. The enzymatic reaction catalyzed by glutamine synthetase
00:13
28. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:00
29. The enzymatic reaction catalyzed by glutamine synthetase
00:00
30. The Glutamate Dehydrogenase Reaction
00:00
31. The Fate of Ammonium
00:00
32. Nitrogen Fixation Is by Nitrogenase Complex
00:16
33. Nitrate Assimilation is the Principal Pathway for Ammonium Biosynthesis
00:00
34. Nitrogen Fixation Is by Nitrogenase Complex
00:00
35. The Fate of Ammonium
00:00
36. The Glutamate Dehydrogenase Reaction
00:00
37. The enzymatic reaction catalyzed by glutamine synthetase
00:29
38. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:27
39. The GDH/GS Pathway of Ammonium Assimilation
00:00
40. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:00
41. The enzymatic reaction catalyzed by glutamine synthetase
00:08
42. The Glutamate Dehydrogenase Reaction
00:10
43. The enzymatic reaction catalyzed by glutamine synthetase
00:05
44. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:50
45. The GDH/GS Pathway of Ammonium Assimilation
00:00
46. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
01:24
47. The enzymatic reaction catalyzed by glutamine synthetase
00:26
48. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:00
49. The GDH/GS Pathway of Ammonium Assimilation
01:23
50. The GS/GOGAT Pathway of Ammonium Assimilation
01:19
51. The GDH/GS Pathway of Ammonium Assimilation
00:46
52. The GS/GOGAT Pathway of Ammonium Assimilation
00:04
53. The GDH/GS Pathway of Ammonium Assimilation
01:13
54. The GS/GOGAT Pathway of Ammonium Assimilation
00:06
55. The GDH/GS Pathway of Ammonium Assimilation
00:00
56. The GS/GOGAT Pathway of Ammonium Assimilation
02:18
57. The Subunit Organization of Bacterial Glutamine Synthetase
10:02
58. Page 850
01:57
59. Allosteric Regulation of Glutamine Synthetase by Feedback Inhibition
00:57
60. The Nitrogen Cycle
00:02
61. How Do the Various Organic Forms of Nitrogen Arise?
00:01
62. Which Metabolic Pathways Allow Organisms to Live on Inorganic Forms of Nitrogen?
00:04
63. Nitrate Assimilation is the Principal Pathway for Ammonium Biosynthesis
00:03
64. Nitrogen Fixation Is by Nitrogenase Complex
00:26
65. The Fate of Ammonium
00:01
66. The Glutamate Dehydrogenase Reaction
00:00
67. The enzymatic reaction catalyzed by glutamine synthetase
00:02
68. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:44
69. The GDH/GS Pathway of Ammonium Assimilation
03:19
70. The GS/GOGAT Pathway of Ammonium Assimilation
00:16
71. The Subunit Organization of Bacterial Glutamine Synthetase
01:06
72. Page 850
00:43
73. Allosteric Regulation of Glutamine Synthetase by Feedback Inhibition
01:51
74. Covalent Modification of GS: Adenylylation of Tyr397 in the Glutamine Synthetase
00:01
75. The cyclic cascade system regulating the covalent modification of GS
00:04
76. The cyclic cascade system regulating the covalent modification of GS
00:23
77. The cyclic cascade system regulating the covalent modification of GS
00:07
78. Covalent Modification of GS: Adenylylation of Tyr397 in the Glutamine Synthetase
02:13
79. The cyclic cascade system regulating the covalent modification of GS
00:08
80. Covalent Modification of GS: Adenylylation of Tyr397 in the Glutamine Synthetase
01:53
81. The cyclic cascade system regulating the covalent modification of GS
00:10
82. The cyclic cascade system regulating the covalent modification of GS
00:00
83. The cyclic cascade system regulating the covalent modification of GS
00:34
84. The cyclic cascade system regulating the covalent modification of GS
00:00
85. The cyclic cascade system regulating the covalent modification of GS
00:00
86. Covalent Modification of GS: Adenylylation of Tyr397 in the Glutamine Synthetase
00:00
87. Allosteric Regulation of Glutamine Synthetase by Feedback Inhibition
00:00
88. Page 850
00:00
89. The Subunit Organization of Bacterial Glutamine Synthetase
00:03
90. The GS/GOGAT Pathway of Ammonium Assimilation
00:04
91. The GDH/GS Pathway of Ammonium Assimilation
00:00
92. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:01
93. The enzymatic reaction catalyzed by glutamine synthetase
00:13
94. The Glutamate Dehydrogenase Reaction
00:09
95. The enzymatic reaction catalyzed by glutamine synthetase
00:00
96. The Glutamate Dehydrogenase Reaction
00:01
97. The enzymatic reaction catalyzed by glutamine synthetase
00:00
98. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:00
99. The GDH/GS Pathway of Ammonium Assimilation
00:00
100. The GS/GOGAT Pathway of Ammonium Assimilation
00:00
101. The Subunit Organization of Bacterial Glutamine Synthetase
00:00
102. Page 850
00:03
103. Allosteric Regulation of Glutamine Synthetase by Feedback Inhibition
00:03
104. Covalent Modification of GS: Adenylylation of Tyr397 in the Glutamine Synthetase
00:12
105. The cyclic cascade system regulating the covalent modification of GS
00:33
106. The cyclic cascade system regulating the covalent modification of GS
04:15
107. Gene Expression Regulates GS
00:00
108. The cyclic cascade system regulating the covalent modification of GS
00:00
109. The cyclic cascade system regulating the covalent modification of GS
00:00
110. Covalent Modification of GS: Adenylylation of Tyr397 in the Glutamine Synthetase
00:00
111. Allosteric Regulation of Glutamine Synthetase by Feedback Inhibition
01:20
112. Page 850
00:01
113. Allosteric Regulation of Glutamine Synthetase by Feedback Inhibition
00:00
114. Covalent Modification of GS: Adenylylation of Tyr397 in the Glutamine Synthetase
00:00
115. The cyclic cascade system regulating the covalent modification of GS
00:00
116. The cyclic cascade system regulating the covalent modification of GS
00:00
117. Gene Expression Regulates GS
01:30
118. Glutamine in the Human Body
04:08
119. -Glutamine and Cancer: (New in 6th edition, 2017) Certain cancer cell lines are very sensitive to glutamine deprivation. Blocking the use of glutamine for anabolic purposes as potential anticancer drug.
00:17
120. Slide 24
02:49
121. How Do Organisms Synthesize Amino Acids?
00:00
122. Slide 26
00:44
123. Amino Acids Are Formed from a-Keto Acids by Transamination
00:00
124. Slide 26
02:22
125. How Do Organisms Synthesize Amino Acids?
00:00
126. Slide 26
00:00
127. Amino Acids Are Formed from a-Keto Acids by Transamination
00:00
128. Humans Can Synthesize Only 10 of the 20 Common Amino Acids
00:01
129. Page 855
01:04
130. Humans Can Synthesize Only 10 of the 20 Common Amino Acids
00:00
131. Amino Acids Are Formed from a-Keto Acids by Transamination
00:00
132. Slide 26
02:33
133. How Do Organisms Synthesize Amino Acids?
01:26
134. Slide 26
00:08
135. How Do Organisms Synthesize Amino Acids?
00:11
136. Slide 26
05:14
137. Amino Acids Are Formed from a-Keto Acids by Transamination
00:05
138. Humans Can Synthesize Only 10 of the 20 Common Amino Acids
00:01
139. Page 855
00:03
140. Humans Can Synthesize Only 10 of the 20 Common Amino Acids
00:00
141. Slide 1
00:00
142. Slide 3
01:03
143. The Nitrogen Cycle
00:00
144. How Do the Various Organic Forms of Nitrogen Arise?
00:00
145. Which Metabolic Pathways Allow Organisms to Live on Inorganic Forms of Nitrogen?
00:00
146. Nitrate Assimilation is the Principal Pathway for Ammonium Biosynthesis
00:00
147. Nitrogen Fixation Is by Nitrogenase Complex
00:00
148. The Fate of Ammonium
00:00
149. The Glutamate Dehydrogenase Reaction
00:07
150. The Fate of Ammonium
00:55
151. The Glutamate Dehydrogenase Reaction
00:00
152. The Fate of Ammonium
00:00
153. Nitrogen Fixation Is by Nitrogenase Complex
00:00
154. Nitrate Assimilation is the Principal Pathway for Ammonium Biosynthesis
00:00
155. Which Metabolic Pathways Allow Organisms to Live on Inorganic Forms of Nitrogen?
00:00
156. How Do the Various Organic Forms of Nitrogen Arise?
00:12
157. The Nitrogen Cycle
00:01
158. How Do the Various Organic Forms of Nitrogen Arise?
00:02
159. Which Metabolic Pathways Allow Organisms to Live on Inorganic Forms of Nitrogen?
00:00
160. Nitrate Assimilation is the Principal Pathway for Ammonium Biosynthesis
00:00
161. Nitrogen Fixation Is by Nitrogenase Complex
00:00
162. The Fate of Ammonium
00:48
163. The Glutamate Dehydrogenase Reaction
01:19
164. The enzymatic reaction catalyzed by glutamine synthetase
00:01
165. The Major Pathways of Ammonium Assimilation Lead to Glutamine Synthesis
00:41
166. The GDH/GS Pathway of Ammonium Assimilation
01:54
167. The GS/GOGAT Pathway of Ammonium Assimilation
00:48
168. The Subunit Organization of Bacterial Glutamine Synthetase
00:31
169. Page 850
01:02
170. Allosteric Regulation of Glutamine Synthetase by Feedback Inhibition
00:40
171. Covalent Modification of GS: Adenylylation of Tyr397 in the Glutamine Synthetase
01:22
172. The cyclic cascade system regulating the covalent modification of GS
00:14
173. The cyclic cascade system regulating the covalent modification of GS
02:45
174. Gene Expression Regulates GS
01:26
175. Glutamine in the Human Body
00:55
176. -Glutamine and Cancer: (New in 6th edition, 2017) Certain cancer cell lines are very sensitive to glutamine deprivation. Blocking the use of glutamine for anabolic purposes as potential anticancer drug.
00:02
177. Slide 24
02:52
178. How Do Organisms Synthesize Amino Acids?
00:15
179. Slide 26
01:47
180. Amino Acids Are Formed from a-Keto Acids by Transamination
01:25
181. Humans Can Synthesize Only 10 of the 20 Common Amino Acids
03:36
182. Page 855
00:01
183. The Pathways of Amino Acid Biosynthesis Can Be Organized into Families
00:03
184. Page 857
00:01
185. The Pathways of Amino Acid Biosynthesis Can Be Organized into Families
01:58
186. Page 855
03:19
187. The Pathways of Amino Acid Biosynthesis Can Be Organized into Families
00:13
188. Page 857
01:58
189. Slide 32
00:32
190. Page 857
00:18
191. Slide 32
00:31
192. Page 858
00:36
193. Page 862
01:04
194. Page 861
02:03
195. Page 863
01:14
196. Page 864
04:30
197. Asparagine and Leukemia
01:06
198. The Pathways of Amino Acid Biosynthesis Can Be Organized into Families
00:27
199. Page 857
00:20
200. Slide 32
00:13
201. Page 858
00:09
202. Page 862
01:53
203. Page 861
00:18
204. Page 863
01:32
205. Page 864
02:49
206. Asparagine and Leukemia
00:09
207. Biosynthesis of Thr, Met, and Lys Proceed From Aspartate
00:00
208. Asparagine and Leukemia
00:00
209. Page 864
00:00
210. Page 863
00:29
211. Page 861
00:00
212. Page 863
00:00
213. Page 864
00:00
214. Asparagine and Leukemia
00:40
215. Biosynthesis of Thr, Met, and Lys Proceed From Aspartate
00:09
216. Page 865
00:09
217. Page 865
00:01
218. Page 865
00:01
219. Biosynthesis of Thr, Met, and Lys Proceed From Aspartate
00:08
220. Page 865
00:11
221. Page 865
02:41
222. Page 866
01:12
223. Page 866
01:12
224. Page 867
00:23
225. Page 869 & 870
00:31
226. Page 869
00:03
227. Page 869 & 870
00:07
228. Page 869
01:35
229. Page 869 & 870
01:56
230. Page 870
00:25
231. Page 870
00:00
232. Page 870
00:54
233. Page 869 & 870
00:03
234. Page 870
00:00
235. Page 869 & 870
00:00
236. Page 869
01:08
237. Page 869 & 870
00:01
238. Page 869
00:02
239. Page 869 & 870
00:01
240. Page 870
00:03
241. Page 870
00:23
242. Cysteine Biosynthesis is Accomplished Via Sulfhydryl Transfer to Serine
00:25
243. 5
00:30
244. Page 873
00:21
245. Page 872
00:47
246. Slide 54
00:00
247. Page 872
00:00
248. Page 873
00:17
249. 5
00:00
250. Page 873
00:00
251. Page 872
00:00
252. Slide 54
08:23
253. Slide 55
07:33
254. Amino Acid Biosynthesis Inhibitors as Herbicides
00:01
255. The Urea Cycle
00:02
256. Amino Acid Biosynthesis Inhibitors as Herbicides
07:19
257. The Urea Cycle
00:06
258. Alanine Transports Ammonia from Muscles to the Liver
00:22
259. The Urea Cycle
00:50
260. Alanine Transports Ammonia from Muscles to the Liver
00:01
261. The Urea Cycle
00:00
262. Alanine Transports Ammonia from Muscles to the Liver