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Literature DB >> 3359001

Recognition of DNA sequences by the repressor of bacteriophage 434.

S C Harrison¹, J E Anderson, G B Koudelka, A Mondragon, S Subbiah, R P Wharton, C Wolberger, M Ptashne.

Abstract

The structure of a complex between the DNA-binding domain of phage 434 repressor and a 14 base-pair synthetic DNA operator reveals the molecular interactions important for sequence-specific recognition. A set of contacts with DNA backbone, notably involving hydrogen bonds between peptide-NH groups and DNA phosphates, position the repressor and fix the DNA configuration. Direct interactions between amino acid side chains and DNA bases involve nonpolar van der Waals contacts as well as hydrogen bonds. The structures of the repressor domain and of the 434 cro protein are extremely similar. There appear to be no major conformational changes in the proteins when they bind to DNA.

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Year: 1988 PMID： 3359001 DOI： 10.1016/0301-4622(88)87022-4

Source DB: PubMed Journal: Biophys Chem ISSN： 0301-4622 Impact factor: 2.352

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Cited

6 in total

Recognition of DNA sequences by the repressor of bacteriophage 434.

1. Crystal structure of RNA-DNA duplex provides insight into conformational changes induced by RNase H binding.

2. An analysis of the relationship between hydration and protein-DNA interactions.

Review 3. Domains, motions and regulation in the myosin head.

4. A permutational approach toward protein-DNA recognition.

5. Pushing the limits of what is achievable in protein-DNA docking: benchmarking HADDOCK's performance.

6. Information-driven protein-DNA docking using HADDOCK: it is a matter of flexibility.