NMR assignments of human linker histone H1x N-terminal domain and globular domain in the presence and absence of perchlorate

Herna de Wit; Alicia Vallet; Bernhard Brutscher; Gerrit Koorsen

doi:10.1007/s12104-019-09886-x

NMR assignments of human linker histone H1x N-terminal domain and globular domain in the presence and absence of perchlorate

Herna de Wit, Alicia Vallet, Bernhard Brutscher, Gerrit Koorsen

Biochemistry

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Human linker histone H1 plays a seminal role in eukaryotic DNA packaging. H1 has a tripartite structure consisting of a central, conserved globular domain, which adopts a winged-helix fold, flanked by two variable N-and C-terminal domains. Here we present the backbone resonance assignments of the N-terminal domain and globular domain of human linker histone H1x in the presence and absence of the secondary structure stabilizer sodium perchlorate. Analysis of chemical shift changes between the two conditions is consistent with induction of transient secondary structural elements in the N-terminal domain of H1x in high ionic strength, which suggests that the N-terminal domain adopts significant alpha-helical conformations in the presence of DNA.

Original language	English
Pages (from-to)	249-254
Number of pages	6
Journal	Biomolecular NMR Assignments
Volume	13
Issue number	1
DOIs	https://doi.org/10.1007/s12104-019-09886-x
Publication status	Published - Apr 2019

Keywords

Chromatin organization
Human linker histone H1x
Intrinsically disordered protein
NMR backbone resonance assignment

ASJC Scopus subject areas

Structural Biology
Biochemistry

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10.1007/s12104-019-09886-x

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abstract = "Human linker histone H1 plays a seminal role in eukaryotic DNA packaging. H1 has a tripartite structure consisting of a central, conserved globular domain, which adopts a winged-helix fold, flanked by two variable N-and C-terminal domains. Here we present the backbone resonance assignments of the N-terminal domain and globular domain of human linker histone H1x in the presence and absence of the secondary structure stabilizer sodium perchlorate. Analysis of chemical shift changes between the two conditions is consistent with induction of transient secondary structural elements in the N-terminal domain of H1x in high ionic strength, which suggests that the N-terminal domain adopts significant alpha-helical conformations in the presence of DNA.",

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T1 - NMR assignments of human linker histone H1x N-terminal domain and globular domain in the presence and absence of perchlorate

AU - de Wit, Herna

AU - Vallet, Alicia

AU - Brutscher, Bernhard

AU - Koorsen, Gerrit

N1 - Publisher Copyright: © Springer Nature B.V. 2019.

PY - 2019/4

Y1 - 2019/4

N2 - Human linker histone H1 plays a seminal role in eukaryotic DNA packaging. H1 has a tripartite structure consisting of a central, conserved globular domain, which adopts a winged-helix fold, flanked by two variable N-and C-terminal domains. Here we present the backbone resonance assignments of the N-terminal domain and globular domain of human linker histone H1x in the presence and absence of the secondary structure stabilizer sodium perchlorate. Analysis of chemical shift changes between the two conditions is consistent with induction of transient secondary structural elements in the N-terminal domain of H1x in high ionic strength, which suggests that the N-terminal domain adopts significant alpha-helical conformations in the presence of DNA.

AB - Human linker histone H1 plays a seminal role in eukaryotic DNA packaging. H1 has a tripartite structure consisting of a central, conserved globular domain, which adopts a winged-helix fold, flanked by two variable N-and C-terminal domains. Here we present the backbone resonance assignments of the N-terminal domain and globular domain of human linker histone H1x in the presence and absence of the secondary structure stabilizer sodium perchlorate. Analysis of chemical shift changes between the two conditions is consistent with induction of transient secondary structural elements in the N-terminal domain of H1x in high ionic strength, which suggests that the N-terminal domain adopts significant alpha-helical conformations in the presence of DNA.

KW - Chromatin organization

KW - Human linker histone H1x

KW - Intrinsically disordered protein

KW - NMR backbone resonance assignment

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DO - 10.1007/s12104-019-09886-x

M3 - Article

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SN - 1874-2718

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IS - 1

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NMR assignments of human linker histone H1x N-terminal domain and globular domain in the presence and absence of perchlorate

Abstract

Keywords

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