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Diversity in DNA recognition by p53 revealed by crystal structures with Hoogsteen base pairs.


ABSTRACT: p53 binds as a tetramer to DNA targets consisting of two decameric half-sites separated by a variable spacer. Here we present high-resolution crystal structures of complexes between p53 core-domain tetramers and DNA targets consisting of contiguous half-sites. In contrast to previously reported p53-DNA complexes that show standard Watson-Crick base pairs, the newly reported structures show noncanonical Hoogsteen base-pairing geometry at the central A-T doublet of each half-site. Structural and computational analyses show that the Hoogsteen geometry distinctly modulates the B-DNA helix in terms of local shape and electrostatic potential, which, together with the contiguous DNA configuration, results in enhanced protein-DNA and protein-protein interactions compared to noncontiguous half-sites. Our results suggest a mechanism relating spacer length to protein-DNA binding affinity. Our findings also expand the current understanding of protein-DNA recognition and establish the structural and chemical properties of Hoogsteen base pairs as the basis for a novel mode of sequence readout.

SUBMITTER: Kitayner M 

PROVIDER: S-EPMC3280089 | biostudies-literature | 2010 Apr

REPOSITORIES: biostudies-literature

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Diversity in DNA recognition by p53 revealed by crystal structures with Hoogsteen base pairs.

Kitayner Malka M   Rozenberg Haim H   Rohs Remo R   Suad Oded O   Rabinovich Dov D   Honig Barry B   Shakked Zippora Z  

Nature structural & molecular biology 20100404 4


p53 binds as a tetramer to DNA targets consisting of two decameric half-sites separated by a variable spacer. Here we present high-resolution crystal structures of complexes between p53 core-domain tetramers and DNA targets consisting of contiguous half-sites. In contrast to previously reported p53-DNA complexes that show standard Watson-Crick base pairs, the newly reported structures show noncanonical Hoogsteen base-pairing geometry at the central A-T doublet of each half-site. Structural and c  ...[more]

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