tailieunhanh - Lecture Molecular biology (Fifth Edition): Chapter 11 - Robert F. Weaver

Chapter 11 - general transcription factors in eukaryotes. Eukaryotic RNA polymerases, unlike their bacterial counterparts, are incapable of binding by themselves to their respective promoters. Instead, they rely on proteins called transcription factors to show them the way. Such factors are grouped into two classes: general transcription factors and gene-specifi c transcription factors (activators). In this chapter we will survey the general transcription factors that interact with all three RNA polymerases and their promoters. | Molecular Biology Fifth Edition Chapter 11 General Transcription Factors in Eukaryotes Lecture PowerPoint to accompany Robert F. Weaver Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Transcription in Eukaryotes Eukaryotic RNA polymerases, unlike their bacterial counterparts, are incapable of binding by themselves to their respective promoters Eukaryotic RNA polymerases rely on proteins called transcription factors to show them the way Two classes: general transcription factors and gene-specific transcription factors (activators) 11- Class II Factors General transcription factors combine with RNA polymerase to form a preinitiation complex This complex is able to initiate transcription when nucleotides are available Tight binding involves formation of an open promoter complex with DNA at the transcription start site that has melted The assembly of preinitiation complexes involving polymerase II is quite complex 11- The Class II | Molecular Biology Fifth Edition Chapter 11 General Transcription Factors in Eukaryotes Lecture PowerPoint to accompany Robert F. Weaver Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Transcription in Eukaryotes Eukaryotic RNA polymerases, unlike their bacterial counterparts, are incapable of binding by themselves to their respective promoters Eukaryotic RNA polymerases rely on proteins called transcription factors to show them the way Two classes: general transcription factors and gene-specific transcription factors (activators) 11- Class II Factors General transcription factors combine with RNA polymerase to form a preinitiation complex This complex is able to initiate transcription when nucleotides are available Tight binding involves formation of an open promoter complex with DNA at the transcription start site that has melted The assembly of preinitiation complexes involving polymerase II is quite complex 11- The Class II Preinitiation Complex Class II preinitiation complex contains: RNA Polymerase II 6 general transcription factors: TFIIA, TFIIB, TFIID, TFIIE, and TFIIH The transcription factors (TF) and polymerase bind the preinitiation complex in a specific order (as studied in vitro) 11- Four Distinct Preinitiation Complexes Transcription factors bind to class II promoters in the following order in vitro: TFIID with help from TFIIA binds to the TATA box forming the DA complex TFIIB binds next generating the DAB complex TFIIF helps RNA polymerase bind to a region from -34 to +17, now it is DABPolF complex Last the TFIIE then TFIIH bind to form the complete preinitiation complex = DABPolFEH In vitro, the participation of TFIIA seems to be optional 11- Model of Formation of the DABPolF Complex 11- Structure and Function of TFIID TFIID contains several subunits TATA-box binding protein (TBP) Highly evolutionarily conserved Binds to the minor groove of the TATA box Saddle-shaped TBP lines up

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