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:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transcription of the Bacillus subtilis gene coding of glutamine synthetase (glnA) is regulated by the nitrogen source. The glnA gene lies in an operon in which it is preceded by an open reading frame with the potential to encode a polypeptide of approximately 16,000 Mr. We have now shown that this open reading frame is utilized in vivo, that its product (GlnR) acts as a diffusible, negative regulator of gln transcription, and that GlnR is likely to be a DNA-binding protein. Certain mutations in glnR, including a large, in-frame deletion and a start codon mutation, led to high-level constitutivity of the operon; other mutations caused low-level constitutivity. These latter mutations, which affected the C terminus of GlnR, seemed to disrupt response to the nitrogen source without eliminating the ability of GlnR to bind to DNA. Wild-type GlnR by itself, however, did not impose nitrogen-dependent regulation; such regulation also required the product of glnA. A model is presented in which glutamine synthetase monitors the availability of nitrogen and imposes negative regulation by interaction with or modification of GlnR.
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PMID:Regulation of Bacillus subtilis glutamine synthetase gene expression by the product of the glnR gene. 257 33

The multifunctional adenovirus single-strand DNA-binding protein (DBP) is highly phosphorylated. Its phosphorylation sites are located in the amino-terminal domain of the protein, and its DNA- and RNA-binding activity resides in the carboxy-terminal half of the polypeptide. We have substituted cysteine or alanine for up to 10 of these potential phosphorylation sites by using oligonucleotide-directed mutagenesis. Alteration of one or a few of these sites had little effect on the viability of virus containing the mutated DBP. However, when eight or more sites were altered, viral growth decreased significantly. This suggests that the overall phosphorylation state of the protein was more important than whether any particular site was modified. The reduction in growth correlated with both depressed DNA replication and expression of late genes. This reduction was probably the result of lower DBP accumulation in mutant-infected cells. Interestingly, although the stability of the mutated DBP was not affected, DBP synthesis and the level of its mRNA were depressed 5- to 10-fold for the underphosphorylated protein. These results suggest that DBP enhances its own expression and imply that phosphorylation of the DBP may be important for this function. Similarities to several eucaryotic transcriptional activators, which are composed of negatively charged activating domains and separate binding domains, are discussed.
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PMID:Mutations that affect phosphorylation of the adenovirus DNA-binding protein alter its ability to enhance its own synthesis. 258 2

Yeast transcription factor tau interacts with the A and B blocks of the intragenic promoter of tRNA genes. The structure of tau was investigated by identifying the polypeptide chains specifically complexed to the tRNA3Glu gene. Highly purified factor, obtained by an improved purification procedure, contained several polypeptide chains, four of which (Mr = 145,000, 135,000, 100,000 and 65,000) comigrated with tau-DNA complex by polyacrylamide gel electrophoresis. Antibodies raised against the 145- and 100-kDa components altered the migration of tau-DNA complexes in band shift assays and inhibited tRNA synthesis in a reconstituted transcription system. These components are immunologically unrelated proteins. By UV cross-linking to 32P-body-labeled tDNA followed by extensive DNase treatment, two polypeptides of the same size (145 and 100 kDa) were found to be radioactively labeled. Factor tau, therefore, appears to be a multisubunit DNA-binding protein with two distinct polypeptides contributing to DNA recognition. Limited proteolysis of tau generated a protease-resistant tau B (tau B) domain that binds solely to the B block. tau B-tDNA complexes were recognized by anti-145 IgG and contained a 120-kDa polypeptide that could originate from the 145-kDa component by proteolysis. These results strongly suggest that the 145-kDa polypeptide belongs to tau B and is responsible for B block binding.
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PMID:Two polypeptide chains in yeast transcription factor tau interact with DNA. 265 41

The VirE2 protein of Agrobacterium tumefaciens Ti plasmid pTiA6 is a single-stranded-DNA-binding protein. Density gradient centrifugation studies showed that it exists as a tetramer in solution. Monomeric VirE2 active in DNA binding could also be obtained by using a different protein isolation procedure. VirE2 was found to be thermolabile; brief incubation at 37 degrees C abolished its DNA-binding activity. It was insensitive to the sulfhydryl-specific reagent N-ethylmaleimide. Removal of the carboxy-terminal 37 residues of the 533-residue VirE2 polypeptide led to complete loss of DNA-binding activity; however, chimeric fusion proteins containing up to 125 residues of the VirE2 C terminus were inactive in DNA binding. In nuclease protection studies, VirE2 protected single-stranded DNA against degradation by DNase I. Analysis of the DNA-VirE2 complex by electron microscopy demonstrated that VirE2 coats a single-stranded DNA molecule and that the binding of VirE2 to its substrate is cooperative.
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PMID:Cooperative binding of Agrobacterium tumefaciens VirE2 protein to single-stranded DNA. 270 13

We have identified, in varicella-zoster virus (VZV)-infected cells, the product of the gene predicted to code for the VZV analog of the herpes simplex virus major DNA-binding protein. The open reading frame of the VZV gene has the potential to code for a protein with a predicted molecular weight of 132,000 (a 132K protein). To detect the protein, a 12-amino-acid oligopeptide corresponding to the carboxyl terminus of the putative open reading frame was synthesized and used to prepare antisera in rabbits. The resulting antibodies reacted specifically in Western immunoblot analysis and immunoprecipitation with a single 130K polypeptide found in VZV-infected cells. The specific reactivity of the antisera with the 130K polypeptide was inhibited by the addition of synthetic peptide. Immunofluorescence studies with the antisera as probe for the 130K polypeptide suggested that this peptide is located predominantly within the nuclei of infected cells. Analysis of proteins that bind to single-stranded DNA immobilized on cellulose matrices indicated that 30 to 50% of the 130K polypeptide is capable of interacting with single-stranded DNA and that this interaction is overcome with 0.5 M NaCl. Thus, we have prepared a specific polyclonal antiserum that identifies a VZV DNA-binding protein whose properties are similar to those of the herpes simplex virus ICP8 (Vmw130) DNA-binding protein.
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PMID:Identification and characterization of a varicella-zoster virus DNA-binding protein by using antisera directed against a predicted synthetic oligopeptide. 282 75

An adenovirus type 5 mutant, designated H5ilE4I, was constructed in which region E4 was replaced by a cloned cDNA. The cDNA was a copy of an mRNA which exclusively contains open translational reading frames 6 and 7. The phenotype of the mutant was compared with that of the previously characterized E4 mutant H2dl808 and wild-type adenovirus 5. Although the H5ilE4I mutant lacked at least five E4 genes, it was nondefective for growth in HeLa cells. The defects in viral DNA replication, late protein synthesis, and shutoff of host cell protein synthesis associated with the phenotype of the H2dl808 mutant were not observed in HeLa cells infected with the H5ilE4I mutant. However, differences were observed regarding the time of onset of viral DNA replication and the accumulation of the hexon polypeptide as well as the 72-kilodalton adenovirus-specific DNA-binding protein. The results thus indicate that open reading frame 6 or 7 or both contain all genetic information required for viral replication in tissue culture cells, whereas another E4 gene modulates the accumulation of certain viral polypeptides. The early onset of viral DNA replication in H5ilE4I-infected cells may be an indirect effect of the enhanced expression of the 72-kilodalton DNA-binding protein.
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PMID:Gene product of region E4 of adenovirus type 5 modulates accumulation of certain viral polypeptides. 284 78

A library of subgenomic fragments of bovine herpesvirus type 2 (BHV-2) DNA was constructed in the expression cloning vector lambda gt11 and screened with monoclonal antibodies to the glycoprotein gb BHV-2, which is homologous to glycoprotein gB (gB-1) of herpes simplex virus type 1 (HSV-1). Lambda gt11 clones containing gB BHV-2-specific sequences were used to identify lambda EMBL3 vectors with DNA inserts which contained the complete gB BHV-2 gene. Nucleotide sequencing revealed that the gB BHV-2 gene is highly conserved compared to gB-1. The amino acid sequences and the predicted secondary structures of both glycoproteins are very similar. Two further open reading frames (ORF) in close vicinity to the gene encoding gB BHV-2 showed considerable homology to HSV-1 genes. They code for the major DNA-binding protein (dbp) of BHV-2 and a putative 72-kDa polypeptide. The gene of the latter protein corresponding to ICP18.5 of HSV-1 is interspersed between the ORFs of gB BHV-2 and the dbp of BHV-2. All three genes map in the unique long region of the genome. Their homology and the colinear arrangement compared to HSV-1 indicate a close relationship between the two viruses.
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PMID:Conservation of a gene cluster including glycoprotein B in bovine herpesvirus type 2 (BHV-2) and herpes simplex virus type 1 (HSV-1). 284 93

We have undertaken a search for mammalian DNA-binding proteins that enhance the activity of DNA polymerases in a template sequence-specific fashion. In this paper, we report the extensive purification and characterization of a new DNA-binding protein from rabbit liver that selectively stimulates DNA polymerases to copy synthetic poly[d(G-C)] and the poly(dC) strand of poly(dC).poly(dG) as well as single-stranded natural DNA that contains stretches of oligo(dC). The enhancing protein, a polypeptide of 65 kDa designated factor C, stimulates the copying of the two synthetic templates by Escherichia coli DNA polymerase I, Micrococcus luteus polymerase, and eukaryotic DNA polymerases alpha and beta, but not by avian myeloblastosis virus polymerase. Factor C, however, does not affect utilization by these polymerases of the poly(dG) strand of poly(dC).poly(dG), of poly(dC) primed by oligo(dG), or of poly(dA).poly(dT) and poly[d(A-T)]. With polymerase I, Michaelis constants (Km) of poly[d(G-C)] and of the poly(dC) strand of poly(dC).poly(dG) are decreased by factor C 37- and 4.7-fold, respectively, whereas maximum velocity (Vmax) remains unchanged. By contrast, neither the Km value of the poly(dG) strand of poly(dC).poly(dG) nor the Vmax value with this template is altered by factor C. Rates of copying of activated DNA, denatured DNA, or singly primed M13 DNA are not affected significantly by factor C. However, primer extension analysis of the copying of recombinant M13N4 DNA that contains runs of oligo(dC) within an inserted thymidine kinase gene shows that factor C increases processivity by specifically augmenting the efficiency at which polymerase I traverses the oligo(dC) stretches. Direct binding of factor C to denatured DNA is indicated by retention of the protein-DNA complex on columns of DEAE-cellulose. Binding of factor C to poly[d(G-C)] is demonstrated by the specific adsorption of the enhancing protein to columns of poly[d(G-C)]-Sepharose. We propose that by binding to poly[d(G-C)] and to poly(dC).poly(dG), factor C enables tighter binding of some DNA polymerases to these templates and facilitates enzymatic activity.
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PMID:Factor C from rabbit liver. A new poly(dC) and poly[d(G-C)] template-selective stimulatory protein of DNA polymerases. 292 91

Transcription factor CTF, which is responsible for selective recognition of eukaryotic promoters that contain the sequence CCAAT, was purified to apparent homogeneity by sequence-specific DNA affinity chromatography. Binding sites for CTF in the human Ha-ras and alpha-globin promoters were highly homologous to sequences recognized by nuclear factor I (NF-I), a cellular DNA-binding protein that is required for the initiation of adenovirus DNA replication in vitro. To determine the relationship between CTF and NF-I, we compared the biochemical properties of these two proteins. CTF and NF-I were found to be indistinguishable in polypeptide composition, DNA-binding properties, immunological cross-reactivity, and in vitro stimulation of DNA replication and transcription initiation. We conclude that CTF/NF-I can serve both as a transcription selectivity factor for RNA polymerase II and as an initiation factor for adenovirus DNA replication.
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PMID:A cellular DNA-binding protein that activates eukaryotic transcription and DNA replication. 302 47

A 1989-bp PstI DNA fragment from the ColIb plasmid, which contains the abi gene that is necessary for the abortive response to infections by bacteriophage BF23 or T5, was sequenced. A candidate open reading frame for the abi gene has been suggested on the basis of a Shine-Dalgarno sequence appropriately placed ahead of its ATG initiation codon, a promoter upstream from the Shine-Dalgarno sequence, and a location compatible with deletion mapping. The polypeptide that would be coded by this open reading frame is 89 amino acids long and strongly hydrophobic. A promoter that could serve this open reading frame was detected by exonuclease III "footprinting" using RNA polymerase from uninfected Escherichia coli as the DNA-binding protein.
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PMID:Nucleotide sequence of a DNA fragment that contains the abi gene of the ColIb plasmid. 307 77


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