Literature DB >> 20232938

Electrostatic interactions between arginines and the minor groove in the nucleosome.

Sean M West1, Remo Rohs, Richard S Mann, Barry Honig.   

Abstract

Proteins rely on a variety of readout mechanisms to preferentially bind specific DNA sequences. The nucleosome offers a prominent example of a shape readout mechanism where arginines insert into narrow minor groove regions that face the histone core. Here we compare DNA shape and arginine recognition of three nucleosome core particle structures, expanding on our previous study by characterizing two additional structures, one with a different protein sequence and one with a different DNA sequence. The electrostatic potential in the minor groove is shown to be largely independent of the underlying sequence but is, however, dominated by groove geometry. Our results extend and generalize our previous observation that the interaction of arginines with narrow minor grooves plays an important role in stabilizing the deformed DNA in the nucleosome.

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Year:  2010        PMID: 20232938      PMCID: PMC2946858          DOI: 10.1080/07391102.2010.10508587

Source DB:  PubMed          Journal:  J Biomol Struct Dyn        ISSN: 0739-1102


  23 in total

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6.  A novel roll-and-slide mechanism of DNA folding in chromatin: implications for nucleosome positioning.

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10.  The role of DNA shape in protein-DNA recognition.

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Journal:  Nature       Date:  2009-10-29       Impact factor: 49.962
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  26 in total

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4.  Helical structure determines different susceptibilities of dsDNA, dsRNA, and tsDNA to counterion-induced condensation.

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Review 6.  Accessing DNA damage in chromatin: Preparing the chromatin landscape for base excision repair.

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Review 7.  UV-Induced DNA Damage and Mutagenesis in Chromatin.

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8.  A map of minor groove shape and electrostatic potential from hydroxyl radical cleavage patterns of DNA.

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9.  Dynamic Stereoselection of Peptide Helicates and Their Selective Labeling of DNA Replication Foci in Cells*.

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10.  DNAshape: a method for the high-throughput prediction of DNA structural features on a genomic scale.

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