2016
DOI: 10.1074/jbc.m116.730705
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Independent Biological and Biochemical Functions for Individual Structural Domains of Drosophila Linker Histone H1

Abstract: Linker histone H1 is among the most abundant components of chromatin. H1 has profound effects on chromosome architecture. H1 also helps to tether DNA-and histone-modifying enzymes to chromatin. Metazoan linker histones have a conserved tripartite structure comprising N-terminal, globular, and long, unstructured C-terminal domains. Here we utilize truncated Drosophila H1 polypeptides in vitro and H1 mutant transgenes in vivo to interrogate the roles of these domains in multiple biochemical and biological activi… Show more

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Cited by 11 publications
(15 citation statements)
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“…5b). Whereas the globular domain of H1 is required for its deposition into chromatin and for physical interactions with HP1 (REFS 36,137), different regions of the C-terminal domain bind to linker DNA 10 , promote oligonucleosome condensation 138,139 and mediate interactions of H1 with DNMTs, STAT, Su(var)3-9 and SUUR 86,103,132,137 .…”
Section: Molecular Mechanisms Of Actionmentioning
confidence: 99%
“…5b). Whereas the globular domain of H1 is required for its deposition into chromatin and for physical interactions with HP1 (REFS 36,137), different regions of the C-terminal domain bind to linker DNA 10 , promote oligonucleosome condensation 138,139 and mediate interactions of H1 with DNMTs, STAT, Su(var)3-9 and SUUR 86,103,132,137 .…”
Section: Molecular Mechanisms Of Actionmentioning
confidence: 99%
“…We demonstrated previously that H1 exerts its multiple biological functions through independent biochemically separable activities of its three structural domains (Kavi et al 2016). Moreover, different segments of the H1 protein are required for direct physical interactions with its several different biochemical partners.…”
Section: Suur and H1 Proteins Interact Physicallymentioning
confidence: 99%
“…The tripartite structure of H1 provides multiple binding interfaces for interacting proteins and thus allows H1 to mediate several biochemically separable functions in vivo (Kavi et al 2016). For instance, the globular domain and proximal 25% of the CTD are required for H1 loading into chromatin, while the proximal 75% of the CTD is needed for normal polytene morphology, H3K9 methylation, and physical interactions with Su(var)3-9.…”
Section: Dissection Of the Physical Interaction Between H1 And Suurmentioning
confidence: 99%
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