Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Molecular cloning of the polypeptide component of the Rel-related human p75 nucleoprotein complex has revealed its identity with the 65-kDa (p65) subunit of NF-kappa B. Functional analyses of chimeric proteins composed of NF-kappa B p65 C-terminal sequences linked to the DNA-binding domain of the yeast GAL4 polypeptide have indicated that the final 101 amino acids of NF-kappa B p65 comprise a potent transcriptional activation domain. Transient transfection of human T cells with an expression vector encoding NF-kappa B p65, but not NF-kappa B p50, produced marked transcriptional activation of a basal promoter containing duplicated kappa B enhancer motifs from the long terminal repeat of type 1 human immunodeficiency virus. These stimulatory effects of NF-kappa B p65 were synergistically enhanced by coexpression of NF-kappa B p50 but were completely inhibited by coexpression of the v-rel oncogene product. Together, these functional studies demonstrate that NF-kappa B p65 is a transactivating subunit of the heterodimeric NF-kappa B complex and serves as one cellular target for v-Rel-mediated transcriptional repression.
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PMID:The 65-kDa subunit of human NF-kappa B functions as a potent transcriptional activator and a target for v-Rel-mediated repression. 154 86

Previous reports (P. D. Katsanakis, C. E. Sekaris, and D. A. Spandidos, Anticancer Res. 11:381-383, 1991; J. Laurence, M. B. Sellers, and S. K. Sikder, Blood 74:291-297, 1989; R. Miksicek, A. Heber, W. Schmid, U. Danesch, G. Posseckert, M. Beato, and G. Schutz, Cell 46:283-290, 1986) have suggested the existence of a glucocorticoid response element in the long terminal repeat of human immunodeficiency virus (HIV) type 1. This study demonstrated a sequence-specific interaction of the glucocorticoid receptor DNA-binding domain with the previously predicted HIV glucocorticoid response element. This interaction may be relevant to the steroid responsiveness of HIV (P. A. Furth, H. Westphal, and L. Hennighausen, AIDS Res. Hum. Retroviruses 6:553-560, 1990; J. Laurence, M. B. Sellers, and S. K. Sikder, Blood 74:291-297, 1989; J. Laurence, H. Cooke, and S. K. Sikder, Blood 75:696-703, 1990; D. A. Spandidos, V. Zoounpovilis, A. Kotsinas, C. Tsiripotis, and C. E. Sekeris, Anticancer Res. 10:1241-1246, 1990).
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PMID:Glucocorticoid receptor-binding site in the human immunodeficiency virus long terminal repeat. 172 2

The Tat protein coded by human immunodeficiency virus (HIV) is a strong activator of viral gene expression from the long terminal repeat (LTR). It appears that Tat-mediated trans-activation of the HIV LTR is predominantly a transcriptional event. It has been reported that Tat acts at the level of both transcriptional initiation and elongation through interaction with a nascent RNA target sequence termed TAR (for trans-activation response element). However, the precise mechanism(s) by which Tat mediates TAR-dependent transcriptional activity is not known. To determine whether Tat functions similarly to other eukaryotic transcriptional activators through any of the conventional promoter elements, we tested Tat activity on synthetic promoters containing consensus sequences required for binding transcription factor Sp1 and a TATA box. Here, we report that a chimeric Tat protein targeted to the promoter region by the DNA-binding domain of yeast transcription factor GAL4 activates the synthetic promoter. Because this trans-activation depends on Sp1-binding sites, Tat can apparently mediate transcriptional activation through its interaction with Sp1. Mutational analysis of the gal4-tat chimeric gene reveals that the N-terminal 48-amino acid region of Tat constitutes the activation region for Sp1-dependent trans-activation. This region of Tat exhibits substantially more activity than the N-terminal 58 amino acids of Tat, which includes the arginine-rich basic region. Effects of specific mutations in the 48-amino acid Tat region of GAL4-Tat on trans-activation of the synthetic promoter mimic the effects of these specific mutations on Tat-mediated trans-activation of the HIV-1 LTR, suggesting that trans-activation of both the synthetic promoter and the intact LTR occurs by a common mechanism.
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PMID:Sp1-dependent activation of a synthetic promoter by human immunodeficiency virus type 1 Tat protein. 192 10

At least two different types of proteins, NF-kappa B/KBF1 and HIV-EP1/PRDII-BF1/MBP-1, which are members of a family of rel oncoproteins and metal-finger proteins, respectively, bind to the human immunodeficiency virus type (HIV-1) enhancer. As a new member of a HIV-EP1 family that is expressed at a high level in T cells, we have isolated cDNA clones of HIV-EP2 by cross-hybridization with HIV-EP1 cDNA. HIV-EP2 protein consists of 1,833 amino acids and has a molecular weight of 211,000. HIV-EP2 protein is highly homologous with HIV-EP1/PRDII-BF1/MBP-1 in three regions. These three regions contain the potential nuclear localization signal followed by a Ser/Thr-rich region, the DNA-binding domain consisting of a metal-finger structure, and a cluster of acidic amino acids. The DNA-binding property of HIV-EP2 was similar to that of HIV-EP1. Northern blot analysis of HIV-EP2 mRNA indicated relatively high expression in the T cell line Molt-4 and in some tumor cell lines. Furthermore, like HIV-EP1, expression of HIV-EP2 mRNA was greatly induced by mitogen and phorbol ester treatment of Jurkat T cells, suggesting that HIV-EP2 acts in HIV production from latently infected T cells.
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PMID:HIV-EP2, a new member of the gene family encoding the human immunodeficiency virus type 1 enhancer-binding protein. Comparison with HIV-EP1/PRDII-BF1/MBP-1. 202 70

Thyroid hormone (T3) receptor (T3R) regulates the human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) by binding to and activating thyroid hormone response elements (TREs) embedded within the viral NF-kappa B and Sp1 motifs. The TREs within the NF-kappa B sites are necessary for activation by T3 in the absence of Tat, while those in the Sp1 motifs function as TREs only when Tat is expressed, suggesting that Tat and T3R interact in the cell. Transactivation of the HIV-1 LTR by T3R alpha and several receptor mutants revealed that the 50-amino-acid N-terminal A/B region of T3R alpha, known to interact with the basal transcription factor TFIIB, is critical for activation of both Tat-dependent and Tat-independent responsive sequences of the LTR. A single amino acid change in the highly conserved tau 1 region in the ligand-binding domain of T3R alpha eliminates Tat-independent but not Tat-dependent activation of the HIV-1 LTR by T3. Ro 5-3335 [7-chloro-5-(2-pyrryl)-3H-1,4-benzodiazepin-2(H)-one], which inhibits Tat-mediated transactivation of HIV-1, also inhibits the functional interaction between Tat and T3R alpha. Binding studies with glutathione-S-transferase fusion proteins and Western (immunoblot) analysis indicate that T3R alpha interacts with Tat through amino acids within the DNA-binding domain of T3R alpha. Mutational analysis revealed that amino acid residues in the basic and C-terminal regions of Tat are required for the binding of Tat to T3R alpha, while the N terminus of Tat is not required. These studies provide functional and physical evidence that stimulation of the HIV-1 LTR by T3 involves an interaction between T3R alpha and Tat. Our results also suggest a model in which multiple domains of T3R alpha interact with Tat and other factors to form transcriptionally important complexes.
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PMID:Interactions of thyroid hormone receptor with the human immunodeficiency virus type 1 (HIV-1) long terminal repeat and the HIV-1 Tat transactivator. 760 79

TFIID is a multisubunit protein complex comprised of the TATA-binding protein (TBP) and multiple TBP-associated factors (TAFs). The TAFs in TFIID are essential for activator-dependent transcription. The cloning of a complementary DNA encoding a human TFIID TAF, TAFII55, that has no known homolog in Drosophila TFIID is now described. TAFII55 is shown to interact with the largest subunit (TAFII230) of human TFIID through its central region and with multiple activators--including Sp1, YY1, USF, CTF, adenoviral E1A, and human immunodeficiency virus-type 1 Tat proteins--through a distinct amino-terminal domain. The TAFII55-interacting region of Sp1 was localized to its DNA-binding domain, which is distinct from the glutamine-rich activation domains previously shown to interact with Drosophila TAFII110. Thus, this human TFIID TAF may be a co-activator that mediates a response to multiple activators through a distinct mechanism.
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PMID:Cloning of an intrinsic human TFIID subunit that interacts with multiple transcriptional activators. 782 54

We have isolated a human cDNA clone encoding HIP116, a protein that binds to the SPH repeats of the SV40 enhancer and to the TATA/inhibitor region of the human immunodeficiency virus (HIV)-1 promoter. The predicted HIP116 protein is related to the yeast SNF2/SWI2 transcription factor and to other members of this extended family and contains seven domains similar to those found in the vaccinia NTP1 ATPase. Interestingly, HIP116 also contains a C3HC4 zinc-binding motif (RING finger) interspersed between the ATPase motifs in an arrangement similar to that found in the yeast RAD5 and RAD16 proteins. The HIP116 amino terminus is unique among the members of this family, and houses a specific DNA-binding domain. Antiserum raised against HIP116 recognizes a 116-kDa nuclear protein in Western blots and specifically supershifts SV40 and HIV-1 protein-DNA complexes in gel shift experiments. The binding site for HIP116 on the SV40 enhancer directly overlaps the site for TEF-1, and like TEF-1, binding of HIP116 to the SV40 enhancer is destroyed by mutations that inhibit SPH enhancer activity in vivo. Purified fractions of HIP116 display strong ATPase activity that is preferentially stimulated by SPH DNA and can be inhibited specifically by antibodies to HIP116. These findings suggest that HIP116 might affect transcription, directly or indirectly, by acting as a DNA binding site-specific ATPase.
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PMID:Cloning of an SNF2/SWI2-related protein that binds specifically to the SPH motifs of the SV40 enhancer and to the HIV-1 promoter. 787 28

The integrase (IN) protein of the human immunodeficiency virus (HIV) mediates two distinct reactions: (i) specific removal of two nucleotides from the 3' ends of the viral DNA and (ii) integration of the viral DNA into target DNA. Although IN discriminates between specific (viral) DNA and nonspecific DNA in physical in vitro assays, a sequence-specific DNA-binding domain could not be identified in the protein. A nonspecific DNA-binding domain, however, was found at the C terminus of the protein. We examined the DNA-binding characteristics of HIV-1 IN, and found that a stable complex of IN and viral DNA is formed in the presence of Mn2+. The IN-viral DNA complex is resistant to challenge by an excess of competitor DNA. Stable binding of IN to the viral DNA requires that the protein contains an intact N-terminal domain and active site (in the central region of the protein), in addition to the C-terminal DNA-binding domain.
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PMID:Formation of a stable complex between the human immunodeficiency virus integrase protein and viral DNA. 793 34

The human immunodeficiency virus (HIV) integrase (IN) protein mediates an essential step in the retroviral lifecycle, the integration of viral DNA into human DNA. A DNA-binding domain of HIV IN has previously been identified in the C-terminal part of the protein. We tested truncated proteins of the C-terminal region of HIV-1 IN for DNA binding activity in two different assays: UV-crosslinking and southwestern blot analysis. We found that a polypeptide fragment of 50 amino acids (IN220-270) is sufficient for DNA binding. In contrast to full-length IN protein, this domain is soluble under low salt conditions. DNA binding of IN220-270 to both viral DNA and non-specific DNA occurs in an ion-independent fashion. Point mutations were introduced in 10 different amino acid residues of the DNA-binding domain of HIV-2 IN. Mutation of basic amino acid K264 results in strong reduction of DNA binding and of integrase activity.
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PMID:Characterization of the minimal DNA-binding domain of the HIV integrase protein. 793 37

Several previously unnoticed genes in the human immunodeficiency virus type 1 (HIV-1), potentially encoding selenoproteins, have been discovered by analyzing the genomic RNA structure and its relation to novel open reading frames. We have found a number of new potential RNA pseudoknots, including one in the long terminal repeat, several that coincide with highly conserved enzyme active site sequences in the pol coding region, and one in the env coding region. These pseudoknots can potentially direct the synthesis of selenocysteine (SeC) containing--1 frameshift fusion proteins. This is possible because we have found potential SeC insertion sequences (SECIS) in the RNA of HIV and other retroviruses; such structures are known to be necessary and sufficient for the incorporation of SeC at UGA "stop" codons anywhere in a eukaryotic mRNA. In several locations, UGA codons in the -1 reading frame are highly conserved across a broad spectrum of primate immunodeficiency viruses. Due to the degeneracy of the genetic code, this conservation cannot be explained by evolutionary selection of the pol gene protein sequence alone. Such observations, combined with the conservation of the associated reading frames, strongly suggest that these are real genes, and thus that the pseudoknots are also real. A protease pseudoknot-directed -1 frameshift fusion protein contains a highly conserved SeC codon and has significant similarities to a number of DNA binding proteins, including papillomavirus E2 proteins, suggesting it may be a virally encoded repressor of HIV transcription when cleaved by protease from the rest of the gag-pol gene product. A reverse transcriptase (RT) frameshift fusion protein replaces the RT active site with a highly conserved SeC-containing module. An integrase frameshift fusion protein contains the N-terminal integrase DNA-binding domain and a potential ATP-binding "GKS" motif; it has significant similarities to several helicases, but no SeC codons. A potential frameshift fusion protein from env has one SeC codon, but not in a highly conserved position. SeC incorporation could extend the nef gene product by 33 residues through the C-terminal UGA codon without frameshifting, potentially leading to substantial SeC utilization in infected cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A basis for new approaches to the chemotherapy of AIDS: novel genes in HIV-1 potentially encode selenoproteins expressed by ribosomal frameshifting and termination suppression. 806 94


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