FileTitleManuscript Id
Chapter Introductionlodish8e_ch9_1.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_1_dlap.xml572b8a14757a2ed531000000
9.1 Control of Gene Expression in Bacteria lodish8e_ch9_2.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_2_dlap.xml572b8a14757a2ed531000000
Transcription Initiation by Bacterial RNA Polymerase Requires Association with a Sigma Factor lodish8e_ch9_3.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_3_dlap.xml572b8a14757a2ed531000000
Initiation of lac Operon Transcription Can Be Repressed or Activated lodish8e_ch9_4.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_4_dlap.xml572b8a14757a2ed531000000
Small Molecules Regulate Expression of Many Bacterial Genes via DNA-Binding Repressors and Activators lodish8e_ch9_5.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_5_dlap.xml572b8a14757a2ed531000000
Transcription Initiation from Some Promoters Requires Alternative Sigma Factors lodish8e_ch9_6.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_6_dlap.xml572b8a14757a2ed531000000
Transcription by σ54-RNA Polymerase Is Controlled by Activators That Bind Far from the Promoter lodish8e_ch9_7.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_7_dlap.xml572b8a14757a2ed531000000
Many Bacterial Responses Are Controlled by Two-Component Regulatory Systems lodish8e_ch9_8.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_8_dlap.xml572b8a14757a2ed531000000
Expression of Many Bacterial Operons Is Controlled by Regulation of Transcriptional Elongation lodish8e_ch9_9.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_9_dlap.xml572b8a14757a2ed531000000
Key Concepts of Section 9.1lodish8e_ch9_10.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_10_dlap.xml572b8a14757a2ed531000000
9.2 Overview of Eukaryotic Gene Control lodish8e_ch9_11.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_11_dlap.xml572b8a14757a2ed531000000
Regulatory Elements in Eukaryotic DNA Are Found Both Close to and Many Kilobases Away from Transcription Start Sites lodish8e_ch9_12.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_12_dlap.xml572b8a14757a2ed531000000
Three Eukaryotic RNA Polymerases Catalyze Formation of Different RNAs lodish8e_ch9_13.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_13_dlap.xml572b8a14757a2ed531000000
The Largest Subunit in RNA Polymerase II Has an Essential Carboxy-Terminal Repeat lodish8e_ch9_14.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_14_dlap.xml572b8a14757a2ed531000000
Key Concepts of Section 9.2lodish8e_ch9_15.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_15_dlap.xml572b8a14757a2ed531000000
9.3 RNA Polymerase II Promoters and General Transcription Factors lodish8e_ch9_16.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_16_dlap.xml572b8a14757a2ed531000000
RNA Polymerase II Initiates Transcription at DNA Sequences Corresponding to the 5′ Cap of mRNAs lodish8e_ch9_17.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_17_dlap.xml572b8a14757a2ed531000000
The TATA Box, Initiators, and CpG Islands Function as Promoters in Eukaryotic DNA lodish8e_ch9_18.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_18_dlap.xml572b8a14757a2ed531000000
General Transcription Factors Position RNA Polymerase II at Start Sites and Assist in Initiation lodish8e_ch9_19.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_19_dlap.xml572b8a14757a2ed531000000
Elongation Factors Regulate the Initial Stages of Transcription in the Promoter-Proximal Region lodish8e_ch9_20.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_20_dlap.xml572b8a14757a2ed531000000
Key Concepts of Section 9.3lodish8e_ch9_21.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_21_dlap.xml572b8a14757a2ed531000000
9.4 Regulatory Sequences in Protein-Coding Genes and the Proteins Through Which They Function lodish8e_ch9_22.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_22_dlap.xml572b8a14757a2ed531000000
Promoter-Proximal Elements Help Regulate Eukaryotic Genes lodish8e_ch9_23.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_23_dlap.xml572b8a14757a2ed531000000
Distant Enhancers Often Stimulate Transcription by RNA Polymerase II lodish8e_ch9_24.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_24_dlap.xml572b8a14757a2ed531000000
Most Eukaryotic Genes Are Regulated by Multiple Transcription-Control Elements lodish8e_ch9_25.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_25_dlap.xml572b8a14757a2ed531000000
DNase I Footprinting and EMSA Detect Protein-DNA Interactions lodish8e_ch9_26.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_26_dlap.xml572b8a14757a2ed531000000
Activators Are Composed of Distinct Functional Domains lodish8e_ch9_27.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_27_dlap.xml572b8a14757a2ed531000000
Repressors Are the Functional Converse of Activators lodish8e_ch9_28.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_28_dlap.xml572b8a14757a2ed531000000
DNA-Binding Domains Can Be Classified into Numerous Structural Types lodish8e_ch9_29.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_29_dlap.xml572b8a14757a2ed531000000
Structurally Diverse Activation and Repression Domains Regulate Transcription lodish8e_ch9_30.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_30_dlap.xml572b8a14757a2ed531000000
Transcription Factor Interactions Increase Gene-Control Options lodish8e_ch9_31.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_31_dlap.xml572b8a14757a2ed531000000
Multiprotein Complexes Form on Enhancers lodish8e_ch9_32.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_32_dlap.xml572b8a14757a2ed531000000
Key Concepts of Section 9.4lodish8e_ch9_33.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_33_dlap.xml572b8a14757a2ed531000000
9.5 Molecular Mechanisms of Transcription Repression and Activation lodish8e_ch9_34.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_34_dlap.xml572b8a14757a2ed531000000
Formation of Heterochromatin Silences Gene Expression at Telomeres, near Centromeres, and in Other Regions lodish8e_ch9_35.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_35_dlap.xml572b8a14757a2ed531000000
Repressors Can Direct Histone Deacetylation at Specific Genes lodish8e_ch9_36.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_36_dlap.xml572b8a14757a2ed531000000
Activators Can Direct Histone Acetylation at Specific Genes lodish8e_ch9_37.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_37_dlap.xml572b8a14757a2ed531000000
Chromatin-Remodeling Complexes Help Activate or Repress Transcription lodish8e_ch9_38.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_38_dlap.xml572b8a14757a2ed531000000
Pioneer Transcription Factors Initiate the Process of Gene Activation During Cellular Differentiation lodish8e_ch9_39.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_39_dlap.xml572b8a14757a2ed531000000
The Mediator Complex Forms a Molecular Bridge Between Activation Domains and Pol II lodish8e_ch9_40.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_40_dlap.xml572b8a14757a2ed531000000
Key Concepts of Section 9.5lodish8e_ch9_41.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_41_dlap.xml572b8a14757a2ed531000000
9.6 Regulation of Transcription-Factor Activity lodish8e_ch9_42.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_42_dlap.xml572b8a14757a2ed531000000
DNase I Hypersensitive Sites Reflect the Developmental History of Cellular Differentiation lodish8e_ch9_43.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_43_dlap.xml572b8a14757a2ed531000000
Nuclear Receptors Are Regulated by Extracellular Signals lodish8e_ch9_44.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_44_dlap.xml572b8a14757a2ed531000000
All Nuclear Receptors Share a Common Domain Structure lodish8e_ch9_45.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_45_dlap.xml572b8a14757a2ed531000000
Nuclear-Receptor Response Elements Contain Inverted or Direct Repeats lodish8e_ch9_46.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_46_dlap.xml572b8a14757a2ed531000000
Hormone Binding to a Nuclear Receptor Regulates Its Activity as a Transcription Factor lodish8e_ch9_47.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_47_dlap.xml572b8a14757a2ed531000000
Metazoans Regulate the RNA Polymerase II Transition from Initiation to Elongation lodish8e_ch9_48.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_48_dlap.xml572b8a14757a2ed531000000
Termination of Transcription Is Also Regulated lodish8e_ch9_49.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_49_dlap.xml572b8a14757a2ed531000000
Key Concepts of Section 9.6lodish8e_ch9_50.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_50_dlap.xml572b8a14757a2ed531000000
9.7 Epigenetic Regulation of Transcription lodish8e_ch9_51.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_51_dlap.xml572b8a14757a2ed531000000
DNA Methylation Represses Transcription lodish8e_ch9_52.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_52_dlap.xml572b8a14757a2ed531000000
Methylation of Specific Histone Lysines Is Linked to Epigenetic Mechanisms of Gene Repression lodish8e_ch9_53.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_53_dlap.xml572b8a14757a2ed531000000
Epigenetic Control by Polycomb and Trithorax Complexes lodish8e_ch9_54.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_54_dlap.xml572b8a14757a2ed531000000
Long Noncoding RNAs Direct Epigenetic Repression in Metazoans lodish8e_ch9_55.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_55_dlap.xml572b8a14757a2ed531000000
Key Concepts of Section 9.7lodish8e_ch9_56.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_56_dlap.xml572b8a14757a2ed531000000
9.8 Other Eukaryotic Transcription Systems lodish8e_ch9_57.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_57_dlap.xml572b8a14757a2ed531000000
Transcription Initiation by Pol I and Pol III Is Analogous to That by Pol II lodish8e_ch9_58.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_58_dlap.xml572b8a14757a2ed531000000
Key Concepts of Section 9.8lodish8e_ch9_59.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_59_dlap.xml572b8a14757a2ed531000000
Key Terms lodish8e_ch9_60.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_60_dlap.xml572b8a14757a2ed531000000
Review the Concepts lodish8e_ch9_61.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_61_dlap.xml572b8a14757a2ed531000000
Extended References lodish8e_ch9_62.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_62_dlap.xml572b8a14757a2ed531000000
Perspectives for the Future lodish8e_ch9_63.html572b8a14757a2ed531000000
DLAP questionslodish8e_ch9_63_dlap.xml572b8a14757a2ed531000000