Literature DB >> 28782560

Glutamate promotes SSB protein-protein Interactions via intrinsically disordered regions.

Alexander G Kozlov1, Min Kyung Shinn2, Elizabeth A Weiland1, Timothy M Lohman3.   

Abstract

E. coli single strand (ss) DNA binding protein (SSB) is an essential protein that binds to ssDNA intermediates formed during genome maintenance. SSB homotetramers bind ssDNA in several modes that differ in occluded site size and cooperativity. High "unlimited" cooperativity is associated with the 35 site size ((SSB)35) mode at low [NaCl], whereas the 65 site size ((SSB)65) mode formed at higher [NaCl] (> 200mM), where ssDNA wraps completely around the tetramer, displays "limited" cooperativity forming dimers of tetramers. It was previously thought that high cooperativity was associated only with the (SSB)35 binding mode. However, we show here that highly cooperative binding also occurs in the (SSB)65/(SSB)56 binding modes at physiological salt concentrations containing either glutamate or acetate. Highly cooperative binding requires the 56 amino acid intrinsically disordered C-terminal linker (IDL) that connects the DNA binding domain with the 9 amino acid C-terminal acidic tip that is involved in SSB binding to other proteins involved in genome maintenance. These results suggest that high cooperativity involves interactions between IDL regions from different SSB tetramers. Glutamate, which is preferentially excluded from protein surfaces, may generally promote interactions between intrinsically disordered regions of proteins. Since glutamate is the major monovalent anion in E. coli, these results suggest that SSB likely binds to ssDNA with high cooperativity in vivo.
Copyright © 2017 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Hofmeister; IDP; SSB-ssDNA interactions; cooperativity; preferential hydration

Mesh:

Substances:

Year:  2017        PMID: 28782560      PMCID: PMC5576569          DOI: 10.1016/j.jmb.2017.07.021

Source DB:  PubMed          Journal:  J Mol Biol        ISSN: 0022-2836            Impact factor:   5.469


  63 in total

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