1996
DOI: 10.1074/jbc.271.51.32580
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H1 Binding Unwinds

Abstract: The preference of the linker histones to bind to superhelical DNA in comparison with linear or relaxed molecules suggests that these proteins might, in turn, change the twist and/or writhe of DNA molecules upon binding. In order to explore such a possibility, we looked for changes in the linking number of plasmid pBR322 caused by H1 binding, using assays that involve nicking and resealing of DNA strands. Two types of enzymes were used, eukaryotic topoisomerase I and prokaryotic DNA ligase. The results revealed… Show more

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Cited by 18 publications
(8 citation statements)
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“…We have shown above and previously that supercoiled DNA binds H1 much more strongly than does linear or relaxed circular DNA. Further, it has been established by two kinds of studies that binding of linker histones unwinds supercoiled DNA ( , ). If unwinding to a more weakly binding conformation is a consequence of binding, then that binding must be negatively cooperative.…”
Section: Discussionmentioning
confidence: 99%
“…We have shown above and previously that supercoiled DNA binds H1 much more strongly than does linear or relaxed circular DNA. Further, it has been established by two kinds of studies that binding of linker histones unwinds supercoiled DNA ( , ). If unwinding to a more weakly binding conformation is a consequence of binding, then that binding must be negatively cooperative.…”
Section: Discussionmentioning
confidence: 99%
“…It may also be relevant to note that topological assays have defined linker histones as DNA unwinding proteins, formally unwinding DNA by ϳ10 o per histone molecule bound. (18) This unwinding could be due to bending, similar to that observed with HNF-3 and Ets-1. That linker histones may induce bending may be also expected on the basis of the recent observation that they show a strong preference for binding to DNA which has been bent by modification with the antitumour drug cisplatin.…”
Section: Binding To Dnamentioning
confidence: 62%
“…Both proteins unwind DNA, albeit to a different angle. (17,18) Although in general the binding is sequence non-specific, a number of cases have been reported where both H1 (19,20) (for earlier review, see ref. 21) and HMG1 (22) possess some sequence specificity.…”
Section: Binding To Dnamentioning
confidence: 98%
“…Our previous CD work seemed to suggest that any DNA structural changes accompanying the binding of H1 0 -G are not observable. However, ligation assays done by Maria et al revealed that binding of H1 globular domains causes some unwinding of superhelical DNA [30]. …”
Section: Discussionmentioning
confidence: 99%