Archaeal histones: dynamic and versatile genome architects

Archaeal histones: dynamic and versatile genome architects

Genome organization and compaction in Archaea involves different chromatin proteins, among which homologues of eukaryotic histones. Archaeal histones are considered the ancestors of their eukaryotic counterparts, which isreflected in the way they position along the genome and wrap DNA. Evolution fro...

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Bibliographic Details
Main Authors: Bram Henneman, Remus T. Dame
Format: Article
Language:English
Published: AIMS Press 2015-12-01
Series:AIMS Microbiology
Subjects:
archaeal chromatin
genome architecture
nucleoid
Archaea
Lokiarchaeota
histone
HMf
HTk
Alba
Online Access:http://www.aimspress.com/microbiology/article/533/fulltext.html
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spelling doaj-4ca1c989826947a59ea9d088a47246202020-11-24T21:04:07ZengAIMS PressAIMS Microbiology2471-18882015-12-0111728110.3934/microbiol.2015.1.72microbiol-01-00072Archaeal histones: dynamic and versatile genome architectsBram Henneman0Remus T. Dame1Leiden Institute of Chemistry, Gorlaeus Laboratories, Leiden University, Leiden, The NetherlandsLeiden Institute of Chemistry, Gorlaeus Laboratories, Leiden University, Leiden, The NetherlandsGenome organization and compaction in Archaea involves different chromatin proteins, among which homologues of eukaryotic histones. Archaeal histones are considered the ancestors of their eukaryotic counterparts, which isreflected in the way they position along the genome and wrap DNA. Evolution from the archaeal modes of action to the prototypical eukaryotic nucleosome may be attributed to altered histone-histone interactions and DNA sequence determinants cooperating to yield stable multimeric structures. The identification of a new candidate phylum, proposed to be a missing link between archaea and eukaryotes, Lokiarchaeaota, may be instrumental in addressing this hypothesis.http://www.aimspress.com/microbiology/article/533/fulltext.htmlarchaeal chromatingenome architecturenucleoidArchaeaLokiarchaeotahistoneHMfHTkAlba
collection DOAJ
language English
format Article
sources DOAJ
author Bram Henneman
Remus T. Dame
spellingShingle Bram Henneman
Remus T. Dame
Archaeal histones: dynamic and versatile genome architects
AIMS Microbiology
archaeal chromatin
genome architecture
nucleoid
Archaea
Lokiarchaeota
histone
HMf
HTk
Alba
author_facet Bram Henneman
Remus T. Dame
author_sort Bram Henneman
title Archaeal histones: dynamic and versatile genome architects
title_short Archaeal histones: dynamic and versatile genome architects
title_full Archaeal histones: dynamic and versatile genome architects
title_fullStr Archaeal histones: dynamic and versatile genome architects
title_full_unstemmed Archaeal histones: dynamic and versatile genome architects
title_sort archaeal histones: dynamic and versatile genome architects
publisher AIMS Press
series AIMS Microbiology
issn 2471-1888
publishDate 2015-12-01
description Genome organization and compaction in Archaea involves different chromatin proteins, among which homologues of eukaryotic histones. Archaeal histones are considered the ancestors of their eukaryotic counterparts, which isreflected in the way they position along the genome and wrap DNA. Evolution from the archaeal modes of action to the prototypical eukaryotic nucleosome may be attributed to altered histone-histone interactions and DNA sequence determinants cooperating to yield stable multimeric structures. The identification of a new candidate phylum, proposed to be a missing link between archaea and eukaryotes, Lokiarchaeaota, may be instrumental in addressing this hypothesis.
topic archaeal chromatin
genome architecture
nucleoid
Archaea
Lokiarchaeota
histone
HMf
HTk
Alba
url http://www.aimspress.com/microbiology/article/533/fulltext.html
work_keys_str_mv AT bramhenneman archaealhistonesdynamicandversatilegenomearchitects
AT remustdame archaealhistonesdynamicandversatilegenomearchitects
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