Literature DB >> 21275369

Sequence-specific B-DNA flexibility modulates Z-DNA formation.

Jameson R Bothe1, Ky Lowenhaupt, Hashim M Al-Hashimi.   

Abstract

Conversion of right-handed B-DNA into left-handed Z-DNA is one of the largest structural transitions in biology that plays fundamental roles in gene expression and regulation. Z-DNA segments must form within genomes surrounded by a sea of B-DNA and require creation of energetically costly B/Z junctions. Here, we show using a combination of natural abundance NMR R(1ρ) carbon relaxation measurements and CD spectroscopy that sequence-specific B-DNA flexibility modulates the thermodynamic propensity to form Z-DNA and the location of B/Z junctions. We observe sequence-specific flexibility in B-DNA spanning fast (ps-ns) and slow (μs-ms) time scales localized at the site of B/Z junction formation. Further, our studies show that CG-repeats play an active role tuning this intrinsic B-DNA flexibility. Taken together, our results suggest that sequence-specific B-DNA flexibility may provide a mechanism for defining the length and location of Z-DNA in genomes.

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Year:  2011        PMID: 21275369      PMCID: PMC3319140          DOI: 10.1021/ja1073068

Source DB:  PubMed          Journal:  J Am Chem Soc        ISSN: 0002-7863            Impact factor:   15.419


  24 in total

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Authors:  Z Reich; P Friedman; S Levin-Zaidman; A Minsky
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  18 in total

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7.  The role of methylation in the intrinsic dynamics of B- and Z-DNA.

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8.  Lanthanum induced B-to-Z transition in self-assembled Y-shaped branched DNA structure.

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