Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chap. 9 DNA-Protein Interactions in Bacteria. The Family of Repressors Repressors have recognition helices that lie in the major groove of appropriate.

Published byEdwina Carr Modified over 8 years ago

Similar presentations

Presentation on theme: "Chap. 9 DNA-Protein Interactions in Bacteria. The Family of Repressors Repressors have recognition helices that lie in the major groove of appropriate."— Presentation transcript:

1 Chap. 9 DNA-Protein Interactions in Bacteria

2 The Family of Repressors Repressors have recognition helices that lie in the major groove of appropriate operator Specificity of this binding depends on amino acids in the recognition helices

3 Helix-turn-helix motif

4 Probing Binding Specificity by Site- Directed Mutagenesis Key amino acids in recognition helices of 2 repressors are proposed These amino acids are largely different between the two repressors

5 Wheel diagram; view at the end

6 -The binding of lambda repressor can be seen by DNaseI footprinting. -Multiple operators exist for the repressor binding. -OR1, OR2, OR3

7 9-7 The Role of Tryptophan The trp repressor requires tryptophan to force the recognition helices of the repressor dimer into proper position for interacting with the trp operator

8 A DNA-binding protein can approach either of these grooves to interact with the base pair. As it does so, it “ sees" four possible contours in each groove, depending on whether the base pair is a T -A, A-T, C- G, or G-C pair.

9 Major groove minor groove

10 Major groove minor groove D A H donor H acceptor

Download ppt "Chap. 9 DNA-Protein Interactions in Bacteria. The Family of Repressors Repressors have recognition helices that lie in the major groove of appropriate."

Similar presentations

Chapter 14 Phage Strategies.

Chapter 14 Phage Strategies.
Why genes are regulated

Why genes are regulated
Control of Expression In Bacteria –Part 1

Control of Expression In Bacteria –Part 1
Understanding biology through structures Course work 2006 Protein-Nucleic Acid Interactions: General Principles.

Understanding biology through structures Course work 2006 Protein-Nucleic Acid Interactions: General Principles.
Transcriptional regulation in Eukaryotes The regulatory elements of bacterial, yeast, and human genes.

Transcriptional regulation in Eukaryotes The regulatory elements of bacterial, yeast, and human genes.
9-1 Chapter 9 DNA-Protein Interactions in Bacteria Student learning outcomes: Describe examples of structure /function relationships in phage repressors.

9-1 Chapter 9 DNA-Protein Interactions in Bacteria Student learning outcomes: Describe examples of structure /function relationships in phage repressors.
Promoter and Module Analysis Statistics for Systems Biology.

Promoter and Module Analysis Statistics for Systems Biology.
Biochemistry Sixth Edition Chapter 31 The Control of Gene Expression Part I: Prokaryotes Copyright © 2007 by W. H. Freeman and Company Berg Tymoczko Stryer.

Biochemistry Sixth Edition Chapter 31 The Control of Gene Expression Part I: Prokaryotes Copyright © 2007 by W. H. Freeman and Company Berg Tymoczko Stryer.
Suggested readings on regulation/dna bp Watson pp.480-500, 504-509 Voet pp 1237-1253 Problems 2, 4 Here’s a quiz on the lac operon:quiz

Suggested readings on regulation/dna bp Watson pp , Voet pp Problems 2, 4 Here’s a quiz on the lac operon:quiz
Control Mechanisms for Gene Expression. Genes Gone Wild?!?! Remember, it takes energy to do make proteins and if they are not needed at that moment, you.

Control Mechanisms for Gene Expression. Genes Gone Wild?!?! Remember, it takes energy to do make proteins and if they are not needed at that moment, you.
Operons. Structural gene Operon Polycistronic mRNA Operator Regulator gene Repressor Overview animation Overview animation.

Operons. Structural gene Operon Polycistronic mRNA Operator Regulator gene Repressor Overview animation Overview animation.
Negative regulatory proteins bind to operator sequences in the DNA and prevent or weaken RNA polymerase binding.

Negative regulatory proteins bind to operator sequences in the DNA and prevent or weaken RNA polymerase binding.
Molecular Biology Fifth Edition

Molecular Biology Fifth Edition
Transcriptional Regulation Getting started – Promotors, Sigma Factors, and DNA-binding proteins.

Transcriptional Regulation Getting started – Promotors, Sigma Factors, and DNA-binding proteins.
Protein-DNA interactions: amino acid conservation and the effects of mutations on binding specificity Nicholas M. Luscombe and Janet M. Thornton JMB (2002)

Protein-DNA interactions: amino acid conservation and the effects of mutations on binding specificity Nicholas M. Luscombe and Janet M. Thornton JMB (2002)
Regulation of Gene Expression In Prokaryotes. Regulation of Gene Expression Constituitive Gene Expression (promoters) Regulating Metabolism (promoters.

Regulation of Gene Expression In Prokaryotes. Regulation of Gene Expression Constituitive Gene Expression (promoters) Regulating Metabolism (promoters.
Gene regulation in prokaryotes March 27, 2006. Inducible transcription: lac operon.

Gene regulation in prokaryotes March 27, Inducible transcription: lac operon.
How does a repressor find its operator in a sea of other sequences? It is not enough just for the regulatory protein to recognize the correct DNA.

How does a repressor find its operator in a sea of other sequences? It is not enough just for the regulatory protein to recognize the correct DNA.
23 and 25 October, 2006 Chapter 16 Regulation in Prokaryotes.

23 and 25 October, 2006 Chapter 16 Regulation in Prokaryotes.
Transcriptional Regulation and RNA Processing

Transcriptional Regulation and RNA Processing

Similar presentations

Ads by Google