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

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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

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