Elucidating the influence of linker histone variants on chromatosome dynamics and energetics

Abstract Linker histones are epigenetic regulators that bind to nucleosomes and alter chromatin structures and dynamics. Biophysical studies have revealed two binding modes in the linker histone/nucleosome complex, the chromatosome, where the linker histone is either centered on or askew from the dy...

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Published inNucleic acids research Vol. 48; no. 7; pp. 3591 - 3604
Main Authors Woods, Dustin C, Wereszczynski, Jeff
Format Journal Article
LanguageEnglish
Published England Oxford University Press 17.04.2020
Subjects
Gene regulation, Chromatin and Epigenetics
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Abstract Abstract Linker histones are epigenetic regulators that bind to nucleosomes and alter chromatin structures and dynamics. Biophysical studies have revealed two binding modes in the linker histone/nucleosome complex, the chromatosome, where the linker histone is either centered on or askew from the dyad axis. Each has been posited to have distinct effects on chromatin, however the molecular and thermodynamic mechanisms that drive them and their dependence on linker histone compositions remain poorly understood. We present molecular dynamics simulations of chromatosomes with the globular domain of two linker histone variants, generic H1 (genGH1) and H1.0 (GH1.0), to determine how their differences influence chromatosome structures, energetics and dynamics. Results show that both unbound linker histones adopt a single compact conformation. Upon binding, DNA flexibility is reduced, resulting in increased chromatosome compaction. While both variants enthalpically favor on-dyad binding, energetic benefits are significantly higher for GH1.0, suggesting that GH1.0 is more capable than genGH1 of overcoming the large entropic reduction required for on-dyad binding which helps rationalize experiments that have consistently demonstrated GH1.0 in on-dyad states but that show genGH1 in both locations. These simulations highlight the thermodynamic basis for different linker histone binding motifs, and details their physical and chemical effects on chromatosomes.
AbstractList Linker histones are epigenetic regulators that bind to nucleosomes and alter chromatin structures and dynamics. Biophysical studies have revealed two binding modes in the linker histone/nucleosome complex, the chromatosome, where the linker histone is either centered on or askew from the dyad axis. Each has been posited to have distinct effects on chromatin, however the molecular and thermodynamic mechanisms that drive them and their dependence on linker histone compositions remain poorly understood. We present molecular dynamics simulations of chromatosomes with the globular domain of two linker histone variants, generic H1 (genGH1) and H1.0 (GH1.0), to determine how their differences influence chromatosome structures, energetics and dynamics. Results show that both unbound linker histones adopt a single compact conformation. Upon binding, DNA flexibility is reduced, resulting in increased chromatosome compaction. While both variants enthalpically favor on-dyad binding, energetic benefits are significantly higher for GH1.0, suggesting that GH1.0 is more capable than genGH1 of overcoming the large entropic reduction required for on-dyad binding which helps rationalize experiments that have consistently demonstrated GH1.0 in on-dyad states but that show genGH1 in both locations. These simulations highlight the thermodynamic basis for different linker histone binding motifs, and details their physical and chemical effects on chromatosomes.
Abstract Linker histones are epigenetic regulators that bind to nucleosomes and alter chromatin structures and dynamics. Biophysical studies have revealed two binding modes in the linker histone/nucleosome complex, the chromatosome, where the linker histone is either centered on or askew from the dyad axis. Each has been posited to have distinct effects on chromatin, however the molecular and thermodynamic mechanisms that drive them and their dependence on linker histone compositions remain poorly understood. We present molecular dynamics simulations of chromatosomes with the globular domain of two linker histone variants, generic H1 (genGH1) and H1.0 (GH1.0), to determine how their differences influence chromatosome structures, energetics and dynamics. Results show that both unbound linker histones adopt a single compact conformation. Upon binding, DNA flexibility is reduced, resulting in increased chromatosome compaction. While both variants enthalpically favor on-dyad binding, energetic benefits are significantly higher for GH1.0, suggesting that GH1.0 is more capable than genGH1 of overcoming the large entropic reduction required for on-dyad binding which helps rationalize experiments that have consistently demonstrated GH1.0 in on-dyad states but that show genGH1 in both locations. These simulations highlight the thermodynamic basis for different linker histone binding motifs, and details their physical and chemical effects on chromatosomes.
Author Wereszczynski, Jeff
Woods, Dustin C
AuthorAffiliation 2 Department of Physics and the Center for Molecular Study of Condensed Soft Matter , Illinois Institute of Technology, Chicago, IL 60616, USA
1 Department of Chemistry and the Center for Molecular Study of Condensed Soft Matter , Illinois Institute of Technology, Chicago, IL 60616, USA
AuthorAffiliation_xml – name: 1 Department of Chemistry and the Center for Molecular Study of Condensed Soft Matter , Illinois Institute of Technology, Chicago, IL 60616, USA
– name: 2 Department of Physics and the Center for Molecular Study of Condensed Soft Matter , Illinois Institute of Technology, Chicago, IL 60616, USA
Author_xml – sequence: 1
  givenname: Dustin C
  orcidid: 0000-0001-5686-8026
  surname: Woods
  fullname: Woods, Dustin C
  organization: Department of Chemistry and the Center for Molecular Study of Condensed Soft Matter, Illinois Institute of Technology, Chicago, IL 60616, USA
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  givenname: Jeff
  orcidid: 0000-0002-2218-3827
  surname: Wereszczynski
  fullname: Wereszczynski, Jeff
  email: jwereszc@iit.edu
  organization: Department of Physics and the Center for Molecular Study of Condensed Soft Matter, Illinois Institute of Technology, Chicago, IL 60616, USA
BackLink https://www.ncbi.nlm.nih.gov/pubmed/32128577$$D View this record in MEDLINE/PubMed
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Snippet Abstract Linker histones are epigenetic regulators that bind to nucleosomes and alter chromatin structures and dynamics. Biophysical studies have revealed two...
Linker histones are epigenetic regulators that bind to nucleosomes and alter chromatin structures and dynamics. Biophysical studies have revealed two binding...
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SubjectTerms Gene regulation, Chromatin and Epigenetics
Title Elucidating the influence of linker histone variants on chromatosome dynamics and energetics
URI https://www.ncbi.nlm.nih.gov/pubmed/32128577
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