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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
NF-Y is a conserved trimeric
transcriptional activator
with an extremely high specificity for CCAAT boxes. The NF-YB and
NF-YC
subunits have histone fold motifs with a high degree of homology to NC2alpha/beta, a TBP-binding repressor. The histone fold is composed of three alpha helices, alpha1, alpha2, alpha3, separated by short loops. Structural data on core histones showed that alpha1 are involved in DNA-binding. To understand the molecular basis of NF-Y sequence-specificity, we constructed deletion and swapping mutants, in which the alpha1 of NC2 and archeal HMfB, a bona fide histonic protein, was placed in NF-YB and
NF-YC
. Our analysis indicates that (i) subunit interactions are normal; (ii) NF-YB-
NF-YC
and NC2alpha/beta do not form heterodimers and NC2 cannot associate NF-YA. (iii) None of the NF-Y swaps can complex with TBP on a TATA box. (iv) Specific residues, R47 and K49 in
NF-YC
and N61 in NF-YB, are crucial for CCAAT-binding. We conclude that specificity of the NF-Y trimer is not due to NF-YA only, but stems in part from the contribution of the histone fold alpha1, particularly that of NF-YB.
...
PMID:NF-Y histone fold alpha1 helices help impart CCAAT specificity. 997 54
The
transcriptional activator
NF-Y is a heterotrimeric complex composed of NF-YA, NF-YB, and
NF-YC
, which specifically binds the CCAAT consensus present in about 30% of eukaryotic promoters. All three subunits contain evolutionarily conserved core regions, which comprise a histone fold motif (HFM) in the case of NF-YB and
NF-YC
. Our results of in vitro binding studies and nuclear import assays reveal two different transport mechanisms for NF-Y subunits. While NF-YA is imported by an importin beta-mediated pathway, the NF-YB/
NF-YC
heterodimer is translocated into the nucleus in an importin 13-dependent manner. We define a nonclassical nuclear localization signal (ncNLS) in NF-YA, and mutational analysis indicates that positively charged amino acid residues in the ncNLS are required for nuclear targeting of NF-YA. Importin beta binding is restricted to the monomeric, uncomplexed NF-YA subunit. In contrast, the nuclear import of NF-YB and
NF-YC
requires dimer formation. Only the NF-YB/
NF-YC
dimer, but not the monomeric components, are recognized by importin 13 and are imported into the nucleus. Importin 13 competes with NF-YA for binding to the NF-YB/
NF-YC
dimer. Our data suggest that a distinct binding platform derived from the HFM of both subunits, NF-YB/
NF-YC
, mediates those interactions.
...
PMID:Subunits of the heterotrimeric transcription factor NF-Y are imported into the nucleus by distinct pathways involving importin beta and importin 13. 1596 92
The CCAAT-binding factor (CBF) is an evolutionarily conserved multimeric
transcriptional activator
in eukaryotes. In Saccharomyces cerevisiae, the CCAAT-binding factor is composed of four subunits, termed Hap2p, Hap3p, Hap4p, and Hap5p. The Hap2p/Hap3p/Hap5p heterotrimer is the DNA-binding component of the complex that binds to the consensus 5'-CCAAT-3' sequence in the promoter of target genes. The Hap4p subunit contains the transcriptional activation domain necessary for stimulating transcription after interacting with Hap2p/Hap3p/Hap5p. In this report, we demonstrate that Hap2p, Hap3p, and Hap5p assemble via a one-step pathway requiring all three subunits simultaneously, as opposed to the mammalian CCAAT-binding factor which has been shown to assemble via a two-step pathway with CBF-A (Hap3p homolog) and
CBF-C
(Hap5p homolog) forming a stable dimer before CBF-B (Hap2p homolog) can interact. We have also found that the interaction of Hap4p with Hap2p/Hap3p/Hap5p requires DNA binding as a prerequisite. To further understand the protein-protein and protein-DNA interactions of this transcription factor, we identified the minimal domain of Hap4p necessary for interaction with the Hap2p/Hap3p/Hap5p-DNA complex, and we demonstrate that this domain is sufficient to complement the respiratory deficiency of a hap4Delta mutant and activate transcription when fused with the VP16 activation domain. These studies provide a further understanding of the assembly of the yeast CCAAT-binding factor at target promoters and raise a number of questions concerning the protein-protein and protein-DNA interactions of this multisubunit transcription factor.
...
PMID:Assembly of the Hap2p/Hap3p/Hap4p/Hap5p-DNA complex in Saccharomyces cerevisiae. 1627 50
C-LEC1, an orthologue of Arabidopsis LEC1, is thought to be an essential
transcriptional activator
required for normal development during the early and late phases of embryogenesis. C-LEC1 is similar in sequence to the HAP3 subunits of other organisms. To understand C-LEC1 function better, a cDNA library of carrot somatic embryos was screened for factors that form complexes with C-LEC1. Two carrot
HAP5
homologues and two carrot HAP2 homologues were identified; these factors have significant sequence similarity to the conserved regions of
HAP5
and HAP2, respectively. Some of these proteins form heterotrimeric complexes that bind specifically to DNA fragments containing a CCAAT sequence in vitro. The results suggest that C-LEC1 is a component of the CCAAT-box-binding factor and forms a complex with C-HAP2B and C-HAP5A or C-HAP5B that regulates gene expression during carrot embryo development.
...
PMID:Identification and characterization of carrot HAP factors that form a complex with the embryo-specific transcription factor C-LEC1. 1805 48
