EC:3.2.1.23 - FACTA Search

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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Poly(ADP-ribose) polymerase (PARP, EC 2.4.2.30) is a zinc finger DNA-binding protein involved in DNA repair processes in eukaryotes. By deletion and extensive site-directed mutagenesis, its DNA-binding domain fused to the N-terminus of beta-galactosidase was shown to contain a nuclear localization signal (NLS) of the form KRK-X(11)-KKKSKK (residues 207-226). In vitro, both the DNA-binding capacity and the polymerizing activity of PARP are independent of the nuclear location function. Each basic cluster is essential but not sufficient on its own for this function, while both motifs together are. Crucial basic amino acids (K207, R208 and K222) in each of these two motifs are required for nuclear homing. The results presented here support the concept that the human PARP NLS is an autonomous functional element and belongs to the class of bipartite NLSs. We show that the linear distance between the two basic clusters is not crucial. Insertional mutation analysis leading to a partial reversion of the cytoplasmic phenotype displayed by the mutant K222I highlights the crucial positioning of this lysine. The structure-function relationship of the second cluster of basic residues is discussed.
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PMID:The human poly(ADP-ribose) polymerase nuclear localization signal is a bipartite element functionally separate from DNA binding and catalytic activity. 150 17

The maternal gene dorsal encodes a nuclear protein acting as a morphogen that determines the size and fate of regions along the dorsal-ventral axis of the Drosophila embryo. From previous genetic and biochemical studies it was hypothesized that dorsal might be responsible for the activation of the zygotic gene twist. In this report, regulatory sequences required for correct spatial and quantitative expression of twist are defined, by using phenotypic rescue and studying twist-beta-galactosidase expression. In addition, by transient cotransfection assays, we show that the dorsal protein specifically activates expression from the twist promoter. We demonstrate that dorsal is a sequence-specific DNA-binding protein that recognizes a motif similar to that recognized by the mammalian transcriptional activator NF-kappa B.
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PMID:Sequence-specific transactivation of the Drosophila twist gene by the dorsal gene product. 164 49

The major capsid protein of polyomavirus, VP1, has been expression cloned in Escherichia coli, and the recombinant VP1 protein has been purified to near homogeneity (A. D. Leavitt, T. M. Roberts, and R. L. Garcea, J. Biol. Chem. 260:12803-12809, 1985). With this recombinant protein, a nitrocellulose filter transfer assay was developed for detecting DNA binding to VP1 (Southwestern assay). In optimizing conditions for this assay, dithiothreitol was found to inhibit DNA binding significantly. With recombinant VP1 proteins deleted at the carboxy and amino termini, a region of the protein affecting DNA binding was identified within the first 7 amino acids (MAPKRKS) of the VP1 amino terminus. Southwestern analysis of virion proteins separated by two-dimensional gel electrophoresis demonstrated equivalent DNA binding among the different VP1 isoelectric focusing subspecies, suggesting that VP1 phosphorylation does not modulate this function. By means of partial proteolysis of purified recombinant VP1 capsomeres for assessing structural features of the protein domain affecting DNA binding, a trypsin-sensitive site at lysine 28 was found to eliminate VP1 binding to DNA. The binding constant of recombinant VP1 to polyomavirus DNA was determined by an immunoprecipitation assay (R. D. G. McKay, J. Mol. Biol. 145:471-488, 1981) to be 1 x 10(-11) to 2 x 10(-11) M, which was not significantly different from its affinity for plasmid DNA. McKay analysis of deleted VP1 proteins and VP1-beta-galactosidase fusion proteins indicated that the amino terminus was both necessary and sufficient for DNA binding. As shown by electron microscopy, DNA inhibited in vitro capsomere self-assembly into capsidlike structures (D. M. Salunke, D. L. D. Caspar, and R. L. Garcea, Cell 46:895-904, 1986). Thus, VP1 is a high-affinity, non-sequence-specific DNA-binding protein with the binding function localized near its trypsin-accessible amino terminus. The inhibitory effects of disulfide reagents on DNA binding and of DNA on capsid assembly suggest possible intermediate steps in virion assembly.
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PMID:Characterization of the DNA-binding properties of the polyomavirus capsid protein VP1. 184 46

Production of the plasmid-coded fimbrial antigen CFA/I of Escherichia coli requires both CFA/I region 1 and CFA/I region 2, which are separated by about 40 kb on the wildtype plasmid. The nucleotide sequence of region 2 was determined and contains an open reading frame (cfa d), encoding a protein of 265 amino acids. The protein has no signal sequence and upon sequence analysis appeared to be a DNA-binding protein. A plasmid was constituted, with a promoterless beta-galactosidase gene preceded by the promoter of region 1. Introduction of a plasmid, carrying the cfa d gene, into a strain containing this construct enhanced expression of beta-galactosidase by at least five-fold indicating that the cfa d protein was enhancing expression from the promoter of region 1. The cfa d gene sequence differed at 28 positions from the Rns gene, which encodes a protein that is a positive regulator of the expression of CS1 or CS2 fimbriae. It was shown that the cfa d gene and the Rns gene can functionally substitute each other in regulating fimbrial synthesis.
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PMID:Expression of CFA/I fimbriae is positively regulated. 197 11

The RAP1 gene of Saccharomyces cerevisiae encodes an abundant DNA-binding protein, also known as GRF1, TBA, or TUF, that binds to many sites in the yeast genome in vitro. These sites define a consensus sequence, [sequence: see text], and deletion analyses of genes that contain this sequence have implicated the involvement of RAP1 in numerous cellular processes, including gene activation and repression. The MAT alpha locus, required for determination of the alpha cell type in yeast cells, contains a RAP1 binding site; this site coincides with the MAT alpha upstream activating sequence (UAS) and is necessary for expression of the two genes encoded by the MAT alpha locus, MAT alpha 1 and MAT alpha 2. We show that the MAT alpha UAS is sufficient to activate transcription from a promoterless gene fusion of the yeast CYC1 upstream region and the lacZ gene. Constructs containing only the MAT alpha UAS generated elevated levels of beta-galactosidase activity which were indistinguishable from those of constructs containing the entire MAT alpha intergenic region. Further, the MAT alpha UAS has an intrinsic polarity of transcriptional activation; transcription of CYC1-lacZ was six- to sevenfold higher when the UAS was oriented in the direction normally associated with MAT alpha 2 transcription. Point mutations in the MAT alpha UAS that reduce MAT alpha expression three- to fivefold resulted in a bi-mating phenotype, while a mutation that reduced MAT alpha expression still further resulted in an a-mating phenotype. We isolated plasmids from a high-copy-number yeast library that suppressed the bi-mating defect of point mutations in the MAT alpha UAS, and the most effective dosage suppressor contained the gene encoding RAP1. A temperature-sensitive rap1 mutant bi-mates at the semipermissive temperature. Double mutants at rap1 and mat alpha mate exclusively as a cells, at all temperatures, and do not express detectable levels of MAT alpha RNA. These data provide evidence that the RAP1 gene product functions at the MAT alpha UAS in vivo.
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PMID:The role of RAP1 in the regulation of the MAT alpha locus. 199 Feb 67

Proteins destined for the nucleus contain nuclear localization sequences, short stretches of amino acids responsible for targeting them to the nucleus. We show that the first 29 amino acids of GAL4, a yeast DNA-binding protein, function efficiently as a nuclear localization sequence when fused to normally cytoplasmic invertase, but not when fused to Escherichia coli beta-galactosidase. Moreover, the nuclear localization sequence from simian virus 40 T antigen functions better when fused to invertase than when fused to beta-galactosidase. A single amino acid change in the T-antigen nuclear localization sequence inhibits the nuclear localization of simian virus 40-invertase and simian virus 40-beta-galactosidase in Saccharomyces cerevisiae. From these results, we conclude that the relative ability of a nuclear localization sequence to act depends on the protein to which it is linked.
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PMID:Context affects nuclear protein localization in Saccharomyces cerevisiae. 249

Significant epitopes of two of the major cytomegalovirus antigens, a nonstructural DNA-binding protein of 52 kilodaltons (kDa) and a structural phosphoprotein of 150 kDa, expressed as fusion proteins with the beta-galactosidase, were induced in Escherichia coli after infection with recombinant lambda gt11 clones. The epitopes were then used in immunoblotting to assay specific immunoglobulin G (IgG) and IgM in several groups of sera from long-term seropositive subjects and from patients undergoing primary or secondary virus infection. The data obtained showed that IgM reacting with the 52-kDa nonstructural antigen are linked to primary virus infection and can therefore be considered a serological marker of this infection.
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PMID:Antibody response to recombinant lambda gt11 fusion proteins in cytomegalovirus infection. 255 92

We have isolated several mutant herpes simplex viruses, specifically mutated in the infected cell protein 8 (ICP8) gene, to define the functional domains of ICP8, the major viral DNA-binding protein. To facilitate the isolation of these mutants, we first isolated a mutant virus, HD-2, with the lacZ gene fused to the ICP8 gene so that an ICP8-beta-galactosidase fusion protein was expressed. This virus formed blue plaques on ICP8-expressing cell lines in the presence of 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside. Mutated ICP8 gene plasmids cotransfected with HD-2 DNA yielded recombinant viruses with the mutant ICP8 gene incorporated into the viral genome. These recombinants were identified by formation of white plaques. Four classes of mutants were defined: (i) some expressed ICP8 that could bind to DNA but could not localize to the cell nucleus; (ii) some expressed ICP8 that did not bind to DNA but localized to the nucleus; (iii) some expressed ICP8 that neither bound to DNA nor localized to the nucleus; and (iv) one expressed ICP8 that localized to the cell nucleus and bound to DNA in vitro, but the mutant virus did not replicate its DNA. These classes of mutants provide genetic evidence that DNA binding and nuclear localization are distinct functions of ICP8 and that ICP8 has nuclear functions other than binding to DNA. Furthermore, the portion of ICP8 needed for a nuclear function(s) distinct from DNA binding is the part of ICP8 showing sequence similarity to that of the cellular protein cyclin or proliferating cell nuclear antigen.
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PMID:Genetic evidence for multiple nuclear functions of the herpes simplex virus ICP8 DNA-binding protein. 255 53

A plasmid-cloning vector system has been constructed which allows the production of fusion proteins with beta-galactosidase at the N terminus, followed by a recognition sequence for the site-specific protease, collagenase, and the foreign protein at the C terminus. A multicloning site allows the insertion of foreign genes in any translational reading frame. Fusion proteins were isolated by affinity chromatography on APTG-Sepharose. The foreign protein was released from the fusion product by collagenase cleavage. The vector was successfully utilized for the production of Escherichia coli single-stranded (ss) DNA-binding protein (SSB protein). The proteolytically released SSB protein resisted elution from an ss DNA-cellulose column with 1 M NaCl.
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PMID:A plasmid vector system for the expression of a triprotein consisting of beta-galactosidase, a collagenase recognition site and a foreign gene product. 283 70

We developed a general method for the enrichment and identification of sequence-specific DNA-binding proteins. A well-characterized protein-DNA interaction is used to isolate from crude cellular extracts or fractions thereof proteins which bind to specific DNA sequences; the method is based solely on this binding property of the proteins. The DNA sequence of interest, cloned adjacent to the lac operator DNA segment is incubated with a lac repressor-beta-galactosidase fusion protein which retains full operator and inducer binding properties. The DNA fragment bound to the lac repressor-beta-galactosidase fusion protein is precipitated by the addition of affinity-purified anti-beta-galactosidase immobilized on beads. This forms an affinity matrix for any proteins which might interact specifically with the DNA sequence cloned adjacent to the lac operator. When incubated with cellular extracts in the presence of excess competitor DNA, any protein(s) which specifically binds to the cloned DNA sequence of interest can be cleanly precipitated. When isopropyl-beta-D-thiogalactopyranoside is added, the lac repressor releases the bound DNA, and thus the protein-DNA complex consisting of the specific restriction fragment and any specific binding protein(s) is released, permitting the identification of the protein by standard biochemical techniques. We demonstrate the utility of this method with the lambda repressor, another well-characterized DNA-binding protein, as a model. In addition, with crude preparations of the yeast mitochondrial RNA polymerase, we identified a 70,000-molecular-weight peptide which binds specifically to the promoter region of the yeast mitochondrial 14S rRNA gene.
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PMID:Novel method for identifying sequence-specific DNA-binding proteins. 301 26

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