The cooperative binding of chromosomal protein HMG-14 to nucleosome cores is reduced by single point mutations in the nucleosomal binding domain

Mutants of human chromosomal protein HMG-14 were generated by site directed mutagenesis and used to study functional domains in this protein. A replacement of serine by cysteine at position 7 did not affect the binding of the protein to nucleosome cores. The sulfhydryl group in the nucleosome-bound...

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Bibliographic Details
Published in:Nucleic acids research 1994-10, Vol.22 (21), p.4520-4526
Main Authors: Postnikov, Yuri V., Lehn, Donald A., Robinson, Richard C., Frideman, Fred K., Shiloach, Joseph, Bustin, Michael
Format: Article
Language:English
Subjects:
Alanine - chemistry
Base Sequence
Binding Sites
Cysteine - chemistry
Escherichia coli - genetics
Gene Expression
Glutamic Acid
High Mobility Group Proteins - chemistry
High Mobility Group Proteins - genetics
High Mobility Group Proteins - metabolism
Humans
Iodoacetamide - pharmacology
Lysine - chemistry
Molecular Sequence Data
Mutagenesis, Site-Directed
Nucleosomes - metabolism
Point Mutation
Protein Conformation
Recombinant Proteins - metabolism
Structure-Activity Relationship
Sulfhydryl Compounds - chemistry
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Summary:Mutants of human chromosomal protein HMG-14 were generated by site directed mutagenesis and used to study functional domains in this protein. A replacement of serine by cysteine at position 7 did not affect the binding of the protein to nucleosome cores. The sulfhydryl group in the nucleosome-bound protein is accessible to modifying agents suggesting that position 7 in the protein is not in close contact with either the DNA or the histones in the core particles. Under cooperative binding conditions, replacements of alanine by proline at position 21, or of lysine by cysteine at position 26, decreased the affinity of the protein for nucleosome cores 6.7- and 3-fold respectively. In contrast, the non-cooperative mode of binding was only minimally affected. A replacement of glutamic acid by glutamine at position 76 caused only minor changes in the binding of the protein to the cores. The results indicate that single point mutations, which change either the conformation or charge in the nucleosomal binding domain of the protein, significantly reduce the ability of the HMG-14 protein to bind to nucleosome cores. We suggest that in chromatin the protein binds to nucleosomes in a cooperative manner and that upon binding to nucleosomes the protein acquires a distinct conformation.
ISSN:0305-1048
1362-4962
DOI:10.1093/nar/22.21.4520