UNIPROT:Q02556 - FACTA Search

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Query: UNIPROT:Q02556 (DNA-binding domain)
6,431 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

LAP (NF-IL6 or C/EBP beta), is a liver transcriptional activator protein that confers liver-specific gene expression. Because LAP has a characteristic phosphoacceptor sequence for cAMP-dependent protein kinase A (PKA), we tested if in vitro phosphorylation of LAP by PKA modulates its interaction with specific DNA sequences. The major PKA phosphorylation site of LAP was identified as Ser105, which is a predicted PKA site. As expected, this PKA phosphorylation site disappears after mutation of Ser105 to Ala. Kinetic studies with LAP and LAP Asp105 (which mimics a phosphoserine residue) demonstrated that phosphorylation of Ser105 itself has no effect on DNA binding. Phosphorylation of other sites by PKA, identified in the region between Ser173 and Ser223 and at Ser240, by analysis of truncated and mutated LAP peptides, resulted in an inhibition of DNA binding. LAP was also phosphorylated by purified protein kinase C in vitro, and the major phosphoacceptor was shown to be Ser240 within the DNA-binding domain of LAP. Phosphorylation of LAP at this residue or introduction of a Ser240 to Asp mutation resulted in marked decrease in its binding to DNA. These results suggest that site-specific phosphorylations of LAP modulate transactivation of its target genes.
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PMID:Protein kinase A and C site-specific phosphorylations of LAP (NF-IL6) modulate its binding affinity to DNA recognition elements. 820 Sep 92

The transactivator protein of human T-lymphotropic virus type I (HTLV-I), Tax, forms multiprotein complexes with the ubiquitous transcription factor CREB and the CREB/ATF-1 heterodimer. The interaction between Tax and CREB is highly specific and results in increased binding of the Tax/CREB complexes to the HTLV-I 21-bp repeats. Despite the extensive sequence similarities between CREB and ATF-1, Tax interacts with ATF-1 only marginally. Compared with CREB, Tax/CREB exhibits greatly increased DNA recognition specificity and preferentially assembles on a consensus binding site, GGGGG(T/A)TGACG(T/C)(A/C)TA(T/C)C-CCCC, homologous to the HTLV-I 21-bp repeats. Here we report that Tax affects CREB binding to the Tax-inducible DNA elements by interacting with the basic-leucine zipper (bZip) domain of CREB. We show by domain switching that the basic region in CREB bZip can confer on c-Jun and ATF-1 leucine zippers the ability to interact with Tax in vitro. Mutational analyses further demonstrate that the amino acid residues of CREB critical for Tax/CREB interaction are Ala-Ala-Arg at positions 282-284 (AAR284), immediately upstream of the highly conserved DNA-binding domain (R/K)XX(R/K) N(R/K)XAAXX(S/C)RX(R/K)(K/R) characteristic of all bZip proteins. Specific amino acid substitutions in AAR284 of CREB weakened or abolished Tax/CREB interaction, whereas reciprocal changes in ATF-1 allowed it to interact with Tax. These results support a model in which the specific interaction between Tax and the AAR284 residues near the DNA-binding domain of CREB results in a multiprotein complex with altered DNA recognition property. This protein complex assembles selectively on the viral Tax-responsive 21-bp repeats to augment transcription.
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PMID:Expansion of CREB's DNA recognition specificity by Tax results from interaction with Ala-Ala-Arg at positions 282-284 near the conserved DNA-binding domain of CREB. 820 41

POU proteins are cell-specific transcription factors whose specificity of action has been attributed to protein-DNA and protein-protein interactions mediated by their DNA-binding (POU) domains. Here we report that transcriptional activation by SCIP, a POU protein expressed by developing Schwann cells, is dependent on an amino-terminal effector domain and that this domain mediates cell-specific transactivation in the complete absence of the POU domain. When fused to a heterologous DNA-binding domain, this SCIP domain is a potent transactivator in Schwann cells but is inactive in three heterologous cell types. The primary structure of the SCIP amino-terminal domain is novel but contains a polymorphic string of alanine residues similar to those found in several other transcription factors. Although previously hypothesized to be important for transcription factor activity, we find that the SCIP string is functionally irrelevant. We propose that homopolymers of alanine, and certain other amino acids, do not represent a motif required for transcription factor function but instead reflect regions of unstable DNA related to those associated with four recently characterized human genetic disorders.
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PMID:Cell-specific action and mutable structure of a transcription factor effector domain. 823 44

The positive-acting global sulfur regulatory protein, CYS3, of Neurospora crassa turns on the expression of a family of unlinked structural genes that encode enzymes of sulfur catabolism. CYS3 contains a leucine zipper and an adjacent basic region (b-zip), which together constitute a bipartite sequence-specific DNA-binding domain. Specific anti-CYS3 antibodies detected a protein of the expected size in nuclear extracts of wild-type Neurospora under conditions in which the sulfur circuit is activated. The CYS3 protein was not observed in cys-3 mutants. Nuclear extracts of wild type, but not cys-3 mutants, also showed specific DNA-binding activity identical to that obtained with a CYS3 protein expressed in Escherichia coli. A truncated CYS3 protein that contains primarily the b-zip domain binds to DNA with high specificity and affinity in vitro, yet fails to activate gene expression in vivo, and instead inhibits the function of the wild-type CYS3 protein. Amino-terminal, carboxyterminal, and internal deletions as well as alanine scanning mutagenesis were employed to identify regions of the CYS3 protein that are required for its trans-activation function. Regions of CYS3 carboxy terminal to the b-zip motif are not completely essential for function although loss of an alanine-rich region results in decreased activity. All deletions amino terminal to the b-zip motif led to a complete loss of CYS3 function. Alanine scanning mutagenesis demonstrated that an unusual prolinerich domain of CYS3 appears to be very important for function and is presumed to constitute an activation domain. It is concluded that CYS3 displays nuclear localization and positive autogenous control in Neurospora and functions as a trans-acting DNA-binding protein.
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PMID:The positive-acting sulfur regulatory protein CYS3 of Neurospora crassa: nuclear localization, autogenous control, and regions required for transcriptional activation. 831 9

SWI4 and SWI6 play a crucial role in START-specific transcription in Saccharomyces cerevisiae. SWI4 and SWI6 form a specific complex on the SCB (SWI4/6-dependent cell cycle box) sequences which have been found in the promoters of HO and G1 cyclin genes. Overproduction of SWI4 eliminates the SWI6 dependency of HO transcription in vivo and results in a new SWI6-independent, SCB-specific complex in vitro, which is heterogeneous and reacts with SWI4 antibodies. The C terminus of SWI4 is not required for SWI6-independent binding of SWI4 to SCB sequences, but it is necessary and sufficient for association with SWI6. Both SWI4 and SWI6 contain two copies of a 33-amino-acid TPLH repeat, which has been implicated in protein-protein interactions in other proteins. These repeats are not required for the SWI4-SWI6 association. Alanine substitutions in both TPLH repeats of SWI6 reduce its activity but do not affect the stability of the protein or its association with SWI4. However, these mutations reduce the ability of the SWI4/6 complex to bind DNA. Deletion of the lucine zipper motif in SWI6 also allows SWI4/6 complex formation, but it eliminates the DNA-binding ability of the SWI4/6 complex. This indicates that the integrity of two different regions of SWI6 is required for DNA binding by the SWI4/6 complex. From these data, we propose that the sequence-specific DNA-binding domain resides in SWI4 but that SWI6 controls the accessibility of this domain in the SWI4/6 complex.
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PMID:Analysis of the SWI4/SWI6 protein complex, which directs G1/S-specific transcription in Saccharomyces cerevisiae. 842 76

At the poles of the Drosophila embryo, cell fate is established by a pathway that begins with the activation of a membrane-associated tyrosine kinase (the torso gene product); this then leads to activation of a serine/threonine kinase (Drosophila Raf-1). Activated Raf-1 then leads, by an undefined mechanism, to the transcriptional activation of the tailless (tll) gene; the tll gene product, itself a transcription factor, subsequently regulates the expression of an array of target genes. To further define this pathway, we have utilized sequence comparison between Drosophila melanogaster and Drosophila virilis to identify conserved elements in the tll promoter region. As assessed by DNase I footprinting and promoter dissection experiments, two of these elements are potential regulatory targets of Raf-1-activated transcription factors. Sequence comparison also reveals that the unique residues in the DNA-binding domain of the tll protein, the next component in the pathway, are conserved. One of these residues, the alanine after the last cysteine in the first zinc finger, may be responsible for part of the difference between the tll protein DNA binding site and the closely related half-site of the retinoid/estrogen receptors. Consistent with the rapid turnover of the tll protein, it contains a PEST sequence (rich in proline, glutamate and aspartate, serine, and threonine) that is also conserved.
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PMID:Characterization of downstream elements in a Raf-1 pathway. 843 97

We have cloned a cDNA for a novel GC box-binding protein designated BTEB2 from a human placenta cDNA library using rat BTEB cDNA (Imataka et al. (1992). EMBO J. 11,3663-3671. as a hybridization probe. BTEB2 consists of 219 amino acids and contains three contiguous zinc finger motifs at its C-terminus. The zinc finger domains showed 59% and 64% sequence similarity to those of Sp1 and BTEB, respectively. Adjacent to the N-terminal of the zinc finger motifs, a short sequence rich in basic amino acids is conserved between BTEB2 and Sp1. Furthermore, This basic sequence concurs with the N-terminal half of the consensus sequence for basic domains of the proteins containing both helix-loop-helix and leucine zipper motifs. The other region of BTEB2 is notably rich in proline, serine, threonine, and alanine residues. BTEB2 expressed in Escherichia coli showed DNA-binding activity whose specificity was closely similar to that of Sp1. Cotransfection experiments using Hepa-1 cells (a mouse hepatoma cell line) with a BTEB2 expression plasmid and GC box-containing reporter plasmids revealed that BTEB2 apparently activated the expression of the CAT activity. Moreover, when BTEB2 was fused to GAL4 DNA-binding domain, the chimeric protein could enhance the transcription through promoters containing GAL4-binding sites. Analysis of the BTEB2 mRNA by RNA blot analysis demonstrated that the mRNA was expressed specifically in testis and placenta with different sizes, 20S and 28S, respectively, among various organs examined.
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PMID:cDNA cloning and transcriptional properties of a novel GC box-binding protein, BTEB2. 847 2

We have isolated mutants of Saccharomyces cerevisiae with an increased sensitivity to oxidative stress. All pos9 mutants (pos for peroxide sensitivity) were hypersensitive to methylviologene, hyperbaric oxygen or hydrogen peroxide, but grew similarly to the wild-type under all other conditions tested. Isolation and sequencing of the respective POS9 gene revealed that it was identical to SKN7. The predicted Skn7/Pos9 protein possesses a domain with high homology to prokaryotic response regulators. These regulatory proteins are part of a simple signalling cascade termed a "two-component system", where a phosphorylation signal of a histidine kinase is transferred to a conserved aspartate residue of the response regulator. To test the functional role of the respective aspartate residue of Skn7/Pos9 protein in oxidative stress, we mutagenized this residue in vitro to alanine, arginine and glutamate. Only the glutamate allele (D427 to E) was able to rescue the hydrogen peroxide-sensitivity of pos9 mutants. By fusion experiments with the Gal4 DNA-binding domain we identified the isolated response regulator-like domain as a novel eukaryotic domain sufficient for gene activation. Whereas this hybrid protein activated transcription of a lacZ reporter gene under aerobic conditions, no activation was observed under anaerobic conditions, indicating that the response regulator domain is involved in a signalling reaction. Two-hybrid investigations also suggest an oligomerization of the Pos9 protein. Our results indicate that a two-component system is involved in the oxidative-stress response of yeast.
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PMID:The response regulator-like protein Pos9/Skn7 of Saccharomyces cerevisiae is involved in oxidative stress resistance. 859 53

The aryl hydrocarbon receptor (AHR) is a ligand-activated transcription factor that binds DNA in the form of a heterodimer with the AHR nuclear translocator protein (ARNT). Both proteins possess basic helix-loop-helix motifs. ARNT binds to the side of the xenobiotic responsive element (XRE) that resembles an E-box (the sequence recognized by the majority of other basic helix-loop-helix proteins), whereas AHR binds to the side of the XRE that does not conform to the E-box sequence. The basic region of ARNT closely resembles those of other E-box-binding proteins, whereas the "nominal basic region" of AHR (amino acids 27 39), although required for XRE binding, deviates from this consensus. By extensive mutational analysis it is shown here that an additional block of amino acids of AHR (from tyrosine 9 to lysine 20) that contains a highly basic segment is required for XRE binding and transcriptional activation. Deletion of the first nine amino acids negates XRE binding. Substitution of either tyrosine 9 or arginine 14 with alanine eliminates XRE binding, whereas alanine substitutions at certain other sites within the block reduce but do not eliminate binding. The reported absence of the first nine amino acids in the purified protein may therefore be artifactual. These results suggest that the amino acids of AHR involved in binding to the XRE constitute a novel DNA-binding domain, comprising amino acids located within and amino-terminal to the nominal basic region.
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PMID:Identification of a novel domain in the aryl hydrocarbon receptor required for DNA binding. 863 89

NUT1, a gene homologous to the major nitrogen regulatory genes nit-2 of Neurospora crassa and areA of Aspergillus nidulans, was isolated from the rice blast fungus, Magnaporthe grisea. NUT1 encodes a protein of 956 amino acid residues and, like nit-2 and areA, has a single putative zinc finger DNA-binding domain. Functional equivalence of NUT1 to areA was demonstrated by introducing the NUT1 gene by DNA-mediated transformation into an areA loss-of-function mutant of A. nidulans. The introduced NUT1 gene fully complemented the areA null mutation, restoring to the mutant the ability to utilize a variety of nitrogen sources. In addition, the sensitivity of Aspergillus NUT1 transformants to ammonium repression of extracellular protease activity was comparable to that of wild-type A. nidulans. Thus, NUT1 and areA encode functionally equivalent gene products that activate expression of nitrogen-regulated genes. A one-step disruption strategy was used to generate nut1- mutants of M. grisea by transforming a rice-infecting strain with a disruption vector in which a gene for hygromycin B phosphotransferase (Hyg) replaced the zinc-finger DNA-binding motif of NUT1. Of 31 hygromycin B (hyg-B)-resistant transformants shown by Southern hybridization to contain a disrupted NUT1 gene (nut1 : : Hyg), 26 resulted from single-copy replacement events at the NUT1 locus. Although nut1- transformants of M. grisea failed to grown on a variety of nitrogen sources, glutamate, proline and alanine could still be utilized. This contrasts with A. nidulans where disruption of the zinc-finger region of areA prevents utilization of nitrogen sources other than ammonium and glutamine. The role of NUT1 and regulation of nitrogen metabolism in the disease process was evaluated by pathogenicity assays. The infection efficiency of nut1- transformants on susceptible rice plants was similar to that of the parental strain, although lesions were reduced in size. These studies demonstrate that the M. grisea NUT1 gene activates expression of nitrogen-regulated genes but is dispensable for pathogenicity.
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PMID:NUT1, a major nitrogen regulatory gene in Magnaporthe grisea, is dispensable for pathogenicity. 875 95

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