Sequence Preference of Mouse H1 super(0) and H1t

Histone H1 proteins bind to DNA and are important in formation and maintenance of chromatin structure. Little is known about differences among variant H1 histones in their interactions with DNA. We examined the effects of histones H1 super(0) and H1t on thermal denaturation of several DNA species. O...

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Bibliographic Details
Published in:Biochemistry (Easton) 1999-01, Vol.38 (40), p.13112-13118
Main Authors: Wellman, SE, Song, Y, Mamoon, N M
Format: Article
Language:English
Subjects:
plasmid pBR322
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Summary:Histone H1 proteins bind to DNA and are important in formation and maintenance of chromatin structure. Little is known about differences among variant H1 histones in their interactions with DNA. We examined the effects of histones H1 super(0) and H1t on thermal denaturation of several DNA species. One of the DNA molecules was a 214-base-pair fragment from the plasmid pBR322, which contains an AT-rich and a GC-rich region. Both H1 super(0) and H1t bound preferentially to one region of the DNA fragment, a region that is relatively GC-rich. This result indicates that histones H1 super(0) and H1t are not totally nonspecific but rather bind with some sequence preference to DNA. This conclusion was supported by studies of other DNA species, including two 92-base-pair fragments derived from the two regions of the 214-mer, and several synthetic homocopolymers of DNA. Data obtained with the homocopolymers suggested that the binding preference was not simple preference for GC base pairs. The binding of the two H1 variants was not identical: there appear to be differences in binding site sizes, affinities, and sequence selectivities between H1t and H1 super(0).
ISSN:0006-2960
DOI:10.1021/bi9914917