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Physical organization of DNA by multiple non-specific DNA-binding modes of integration host factor (IHF).


ABSTRACT: The integration host factor (IHF) is an abundant nucleoid-associated protein and an essential co-factor for phage ? site-specific recombination and gene regulation in E. coli. Introduction of a sharp DNA kink at specific cognate sites is critical for these functions. Interestingly, the intracellular concentration of IHF is much higher than the concentration needed for site-specific interactions, suggesting that non-specific binding of IHF to DNA plays a role in the physical organization of bacterial chromatin. However, it is unclear how non-specific DNA association contributes to DNA organization. By using a combination of single DNA manipulation and atomic force microscopy imaging methods, we show here that distinct modes of non-specific DNA binding of IHF result in complex global DNA conformations. Changes in KCl and IHF concentrations, as well as tension applied to DNA, dramatically influence the degree of DNA-bending. In addition, IHF can crosslink DNA into a highly compact DNA meshwork that is observed in the presence of magnesium at low concentration of monovalent ions and high IHF-DNA stoichiometries. Our findings provide important insights into how IHF contributes to bacterial chromatin organization, gene regulation, and biofilm formation.

SUBMITTER: Lin J 

PROVIDER: S-EPMC3498176 | biostudies-literature | 2012

REPOSITORIES: biostudies-literature

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Physical organization of DNA by multiple non-specific DNA-binding modes of integration host factor (IHF).

Lin Jie J   Chen Hu H   Dröge Peter P   Yan Jie J  

PloS one 20121114 11


The integration host factor (IHF) is an abundant nucleoid-associated protein and an essential co-factor for phage λ site-specific recombination and gene regulation in E. coli. Introduction of a sharp DNA kink at specific cognate sites is critical for these functions. Interestingly, the intracellular concentration of IHF is much higher than the concentration needed for site-specific interactions, suggesting that non-specific binding of IHF to DNA plays a role in the physical organization of bacte  ...[more]

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