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Target Concepts:
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Query: UNIPROT:P06126 (
CD1a
)
2,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The yeast SPT10 gene encodes a putative histone acetyltransferase that binds specifically to pairs of upstream activating sequence (UAS) elements found only in the histone gene promoters. Here, we demonstrate that the
DNA-binding domain
of Spt10p is located between residues 283 and 396 and includes a His(2)-Cys(2) zinc finger. The binding of Spt10p to the histone UAS is zinc-dependent and is disabled by a zinc finger mutation (C388S). The isolated
DNA-binding domain
binds to single histone UAS elements with high affinity. In contrast, full-length Spt10p binds with high affinity only to pairs of UAS elements with very strong positive cooperativity and is unable to bind to a single UAS element. This implies the presence of a "blocking" domain in full-length Spt10p, which forces it to search for a pair of UAS elements. Chromatin immunoprecipitation experiments indicate that, unlike wild-type Spt10p, the C388S protein does not bind to the promoter of the gene encoding histone H2A (
HTA1
) in vivo. The C388S mutant has a phenotype similar to that of the spt10Delta mutant: poor growth and global aberrations in gene expression. Thus, the C388S mutation disables the DNA-binding function of Spt10p in vitro and in vivo. The zinc finger of Spt10p is homologous to that of foamy virus integrase, perhaps suggesting that this integrase is also a sequence-specific DNA-binding protein.
...
PMID:The DNA-binding domain of the yeast Spt10p activator includes a zinc finger that is homologous to foamy virus integrase. 1641 40
The yeast Spt10p activator is a putative histone acetyltransferase (HAT) possessing a sequence-specific
DNA-binding domain
(
DBD
) which binds to the upstream activation sequences (UAS elements) in the histone gene promoters. Spt10p binds to a pair of histone UAS elements with extreme positive cooperativity. The molecular basis of this cooperativity was addressed. Spt10p (640 residues) is an elongated dimer, but the isolated
DBD
(residues 283-396) is a monomer and binds non-cooperatively to DNA. A Spt10p fragment comprising the N-terminal domain (NTD), HAT domain and
DBD
(residues 1-396) binds cooperatively and is a dimer, whereas an overlapping Spt10p fragment comprising the
DBD
and C-terminal domains (residues 283-640) binds non-cooperatively and is a monomer. These observations imply that cooperative binding requires dimerization. The isolated NTD (residues 1-98) is a dimer and is responsible for dimerization. We propose that cooperativity involves a conformational change in the Spt10p dimer which facilitates the simultaneous recognition of two UAS elements. In vivo, deletion of the NTD results in poor growth, but does not prevent the binding at the
HTA1
promoter, suggesting that dimerization is biologically important. Residues 1-396 are sufficient for normal growth, indicating that the critical functions of Spt10p reside in the N-terminal domains.
...
PMID:Cooperative binding of the yeast Spt10p activator to the histone upstream activating sequences is mediated through an N-terminal dimerization domain. 1720 56
