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Ch 1.General Lab Techniques

Ch 2.Molecular Separation

Ch 3.DNA and RNA

Ch 4.Genetics

Ch 5.PCR Serials

Ch 6.Protein

Ch 7.DNA Protein Interactions

Ch 8.Immunohistoch / immunology

Ch 9.Cellular Biology

Ch 10.GC/MS, NMR and Proteomics

Ch 11.Animal Experiments

Ch 12.Worm: C. Elegans

Ch 13.HPLC and TLC

Ch 14.Buffers formats in Lab.

Ch 15.Other Resources

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Biochemistry (Chapters and Vocabulary) -unit 1-50, 51-100, 101-150, 151-200, 201-250, 251-300, 301-350, 351-400, 401-450, 451-500


151: Selected proteins exhibiting alternative RNA splicing                    

 

152: Alternative Splicing Patterns.                                                        

 

153: Splicing Catalytic Center.                                                             

 

154: Spliceosome Assembly.                                                                 

 

155: Small nuclear ribonucleoprotein particles (snRNPs) in the splicing of mRNA precursors        

 

156: Splicing Branch Point.                                                                   

 

157: Splicing Mechanism Used for mRNA Precursors.                         

 

158: Splicing Defects.                                                                           

 

159: Splice Sites.                                                                                   

 

160: RNA Editing.                                                                                

 

161: Polyadenylation of a Primary Transcript.                                      

 

162: Capping the 5 End.                                                                       

 

163: Transfer RNA Precursor Processing.                                             

 

164: Eukaryotic Transcription and Translation Are Separated in Space and Time   

 

165: Transcription-Factor-Binding Sites.                                              

 

166: Assembly of the Initiation Complex.                                            


The Control of Gene Expression

167: The Greater Complexity of Eukaryotic Genomes Requires Elaborate Mechanisms for Gene Regulation              

 

168: An Experimental Demonstration of Enhancer Function.                  

 

169: Enhancer Binding Sites.                                                                

 

170: Gal4 Binding Sites.                                                                       

 

171: Higher-Order Chromatin Structure.                                              

 

172: Homologous Histones.                                                                  

 

173: Nucleosome Core Particle.                                                            

 

174: Chromatin Structure.                                                                     

 

175: Yeast Chromosomes.                                                                     

 

176: Prokaryotic DNA-Binding Proteins Bind Specifically to Regulatory Sites in Operons           

 

177: DNA Recognition Through Beta Strands.                                    

 

178: Helix-Turn-Helix Motif.                                                                

 

179: Structure of a Dimer of CAP Bound to DNA.                             

 

180: Binding Site for Catabolite Activator Protein (CAP).                     

 

181: Binding-Site Distributions.                                                           

 

182: Induction of the LAC Operon.                                                      

 

183: Effects of IPTG On LAC Repressor Structure.                            

 

184: LAC Repressor-DNA Interactions.                                               

 

185: Structure of the LAC Repressor.                                                   

 

186: The LAC Operator.                                                                        

 

187: Operons.                                                                                        

 

188: Beta-Galactosidase Induction.                                                      

 

189: Following the Beta-Galactosidase Reaction.                                

 

190: Programming Gene Expression.                                                    

 

191: Highly expressed protein-encoding genes of the pancreas and liver (as percentage of total mRNA pool)               

 

192: The Control of Gene Expression                                                   

 

193: Chapter Integration Problem                                                         

 

194: Problems                                                                                        

 

195: Summary                                                                                       

 

196: Gene Expression Can Be Controlled at Posttranscriptional Levels     

 

197: The IRE-BP Is an Aconitase.                                                        

 

198: Transferrin-receptor mRNA.                                                         

 

199: Iron-Response Element.                                                                

 

200: Structure of Ferritin.                                                                      

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