2018
DOI: 10.1101/297762
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Chromatin remodelers couple inchworm motion with twist-defect formation to slide nucleosomal DNA

Abstract: ATP-dependent chromatin remodelers control genome organization by repositioning, ejecting, or editing nucleosomes, activities that confer them essential regulatory roles on gene expression and DNA replication.Here, we investigate the mechanism of active DNA sliding by remodelers, which underlies most remodeling functions, via molecular dynamics simulations of the Snf2 remodeler in complex with a nucleosome. During its inchworm motion driven by ATP consumption, the remodeler overwrites the original nucleosome e… Show more

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Cited by 12 publications
(9 citation statements)
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References 81 publications
(339 reference statements)
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“…Binding of two remodeler molecules could allow for higher efficiency in positioning the nucleosome at a precise location but necessitates coordination of the remodellers. A possible mechanism for coordination could be that twist defects that are introduced by remodeler binding are propagated from the entry SHL 2 into the exit side SHL 2 ( Brandani et al, 2018 ; Brandani and Takada, 2018 ). Presence of the twist defect at the second remodeler binding site could interfere with the translocation activity of the second remodeler ( Sabantsev et al, 2019 ).…”
Section: Resultsmentioning
confidence: 99%
“…Binding of two remodeler molecules could allow for higher efficiency in positioning the nucleosome at a precise location but necessitates coordination of the remodellers. A possible mechanism for coordination could be that twist defects that are introduced by remodeler binding are propagated from the entry SHL 2 into the exit side SHL 2 ( Brandani et al, 2018 ; Brandani and Takada, 2018 ). Presence of the twist defect at the second remodeler binding site could interfere with the translocation activity of the second remodeler ( Sabantsev et al, 2019 ).…”
Section: Resultsmentioning
confidence: 99%
“…Therefore, questions that require longer and a higher number of simulations can be addressed. As a result, models of sequence-specific nucleosome dynamics, revealing the role of the sequence in nucleosome breathing and unwrapping 22,28 , or protein-mediated remodeling 29 have been established. However, the descriptions obtained from coarse grained simulations is limited because important details regarding the interactions that modulate nucleosome dynamics are missing.…”
mentioning
confidence: 99%
“…The two BRs of the Myc-Max heterodimer alternate stepping on the DNA, transiting between a closed and an open conformation, i.e., the leading BR steps first (from the closed to open) and the trailing BR follows (open to closed). Such inchworm stepping motions have been identified previously in nucleic acid molecular motors such as PcrA helicase [50,51] and chromatin remodeler [52]. In PcrA helicase, for example, domain 1A and 2A alternative their affinities with the single-stranded (ss)DNA, in coordination with ATP binding and product release cycles, so that the helicase moves directionally via the inchworm motions along ssDNA [50,51].…”
Section: Discussionmentioning
confidence: 84%