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)

Eukaryotic expression vectors designed to produce E. coli Lac repressor protein targeted to the nucleus of mammalian cells were constructed. These constructions carry the lac repressor gene (lacI) fused at different positions to a nuclear localization sequence (NLS) from either the SV40 large T antigen or the adenovirus E1a. When the NLS's were fused to the lacI gene at the 5' end, the protein produced exhibited tighter repression of beta-galactosidase expression than the unmodified LacI protein. Localization sequences at the extreme 3' end of the gene generally diminished induction by IPTG, while introduction of the SV40 NLS nine base pairs upstream of the 3' end eliminated repressor activity. When either NLS was placed at the 3' end behind a random nine base pair linker, the activity of the LacI protein depended on the sequence of the linker, and in 9 of 10 linkers tested, activity of the protein was adversely affected. The one exception was the fusion protein from p3'ss, which had the NLS at the 3' end of lacI behind the nine base pair linker, AGC AGC CTG (ser-ser-leu). This protein exhibited efficient nuclear accumulation, strong repressor activity and greater sensitivity to IPTG induction. The functional linker from the p3'ss fusion protein extends the leucine zipper heptad repeat located at the C-terminus of the protein. These data support the role of the leucine zipper in tetramer formation and predict that extension of this zipper will further stabilize the protein. This modified lacI gene should be valuable for improved adaptation of the prokaryotic regulatory system to eukaryotic cells.
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PMID:Modifications of the E.coli Lac repressor for expression in eukaryotic cells: effects of nuclear signal sequences on protein activity and nuclear accumulation. 131 57

Hepatitis delta antigen (HDAg) is the only known protein of hepatitis delta virus and was previously shown to localize in the nucleoplasm of infected liver cells. In this study, nuclear localization signals of HDAg were defined by expressing various domains of the antigen in both hepatic and nonhepatic cells as beta-galactosidase fusion proteins. A cytochemical staining assay demonstrated that a domain from amino acid residues 35 to 88 of HDAg was able to facilitate transport to the nucleus of the originally cytoplasm-localized protein beta-galactosidase. Two nuclear localization signals, NLS1 and NLS2, which are similar to those of simian virus 40 T antigen and polyomavirus T antigen, respectively, were identified. Either NLS1 or NLS2 alone was sufficient for the nuclear transport of HDAg. However, a fusion protein (N65Z) containing beta-galactosidase and the N-terminal 65 amino acids of HDAg, containing NLS1, was localized exclusively in the cytoplasm and perinuclear region. A possible hydrophobic subdomain between amino acid residues 50 and 65 may block the function of NLS1. Nevertheless, N65Z could enter the nuclei of transfected cells when it was coexpressed with full-length HDAg. Entry into the nucleus may be mediated by the coiled-coil structure rather than the putative leucine zipper motif located between amino acid residues 35 and 65. The existence of two independent nuclear localization signals may ensure the proper functioning of HDAg in the multiplication of delta virus in the nucleus. In addition, two putative casein kinase II sites (SRSE-5 and SREE-126) that may be important in controlling the rate of nuclear transport were found in HDAg.
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PMID:Nuclear localization signals, but not putative leucine zipper motifs, are essential for nuclear transport of hepatitis delta antigen. 152 50

One of the gene products of human T-cell leukemia virus type I (HTLV-I), p40tax, activates its own viral transcription in trans through tax-responsive enhancers in viral long terminal repeats. Five species of cDNA clones for proteins that bind to the tax-responsive enhancer element in HTLV-I were isolated from the Jurkat cell library. The beta-galactosidase fusion protein prepared from the lysogen of a clone specifically recognized the cyclic AMP-responsive element in HTLV-I enhancer. The nucleotide sequence of a full-length cDNA clone (TAXREB67) had a coding capacity of 351 amino acids, which contained a basic motif followed by a leucine zipper structure near the carboxy terminus. Its mRNA was detected in human cell lines, including HTLV-I-infected or noninfected hematopoietic cell lines. The mRNA level in Jurkat cells was decreased temporarily by increasing cyclic AMP concentration but increased by increasing Ca2+ concentration. Polyclonal antibodies against the fusion protein specifically recognized a 52-kDa protein in Jurkat cells. Analyses of the function of this protein and its interactions with other cellular factors will be useful to help understand the regulatory mechanism through tax-responsive enhancers in HTLV-I.
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PMID:Isolation of cDNAs for DNA-binding proteins which specifically bind to a tax-responsive enhancer element in the long terminal repeat of human T-cell leukemia virus type I. 184 61

Two novel genes affecting hexose transport in the yeast Saccharomyces cerevisiae have been identified. The gene HXT1 (hexose transport), isolated from plasmid pSC7, was sequenced and found to encode a hydrophobic protein which is highly homologous to the large family of sugar transporter proteins from eucaryotes and procaryotes. Multicopy expression of the HXT1 gene restored high-affinity glucose transport to the snf3 mutant, which is deficient in a significant proportion of high-affinity glucose transport. HXT1 was unable to complement the snf3 growth defect in low copy number. The HXT1 protein was found to contain 12 putative membrane-spanning domains with a central hydrophilic domain and hydrophilic N- and C-terminal domains. The HXT1 protein is 69% identical to GAL2 and 66% identical to HXT2, and all three proteins were found to have a putative leucine zipper motif at a consensus location in membrane-spanning domain 2. Disruption of the HXT1 gene resulted in loss of a portion of high-affinity glucose and mannose transport, and wild-type levels of transport required both the HXT1 and SNF3 genes. Unexpectedly, expression of beta-galactosidase activity by using a fusion of the lacZ gene to the HXT1 promoter in a multicopy plasmid was maximal during lag and early exponential phases of growth, decreasing approximately 100-fold upon further entry into exponential growth. Deletion analysis of pSC7 revealed the presence of another gene (called ORF2) capable of suppressing the snf3 null mutant phenotype by restoring high-affinity glucose transport and increased low-affinity transport.
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PMID:The HXT1 gene product of Saccharomyces cerevisiae is a new member of the family of hexose transporters. 204 78

The gypsy retrotransposon of Drosophila melanogaster causes mutations that show temporal and tissue-specific phenotypes. These mutant phenotypes can be reversed by mutations in su(Hw), a gene that also regulates the transcription of the gypsy element. Gypsy encodes a full-length 7.0-kb RNA that is expressed in the salivary gland precursors and fat body of the embryo, imaginal discs and fat body of larvae, and fat body and ovaries of adult females. The su(Hw)-binding region inserted upstream of the promoter of a lacZ reporter gene can induce beta-galactosidase expression in a subset of the embryonic and larval tissues where gypsy is normally transcribed. This expression is dependent on the presence of a functional su(Hw) product, suggesting that this protein is a positive activator of gypsy transcription. Flies transformed with a construct in which the 5' LTR and leader sequences of gypsy are fused to lacZ show beta-galactosidase expression in all tissues where gypsy is normally expressed, indicating that sequences other than the su(Hw)-binding site are required for proper spatial and temporal expression of gypsy. Mutations in the zinc fingers of su(Hw) affect its ability to bind DNA and to induce transcription of the lacZ reporter gene. Two other structural domains of su(Hw) also play an important role in transcriptional regulation of gypsy. Deletion of the amino-terminal acidic domain results in the loss of lacZ expression in larval fat body and adult ovaries, whereas mutations in the leucine zipper region result in an increase of lacZ expression in larval fat body and a decrease in adult ovaries. These effects might be the result of interactions of su(Hw) with activator and repressor proteins through the acidic and leucine zipper domains to produce the final pattern of tissue-specific expression of gypsy.
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PMID:The suppressor of Hairy-wing protein regulates the tissue-specific expression of the Drosophila gypsy retrotransposon. 770 25

The cg30 gene of Autographa californica nuclear polyhedrosis virus (AcMNPV) encodes two sequence motifs, a zinc finger-like motif and a leucine zipper, found in other polypeptides known to be involved in gene regulation. To gain insight into the function of the cg30 product, CG30, we constructed and characterized recombinant viruses lacking a functional cg30 gene. We found that cg30 mutants had no striking phenotype in cell lines derived from Spodoptera frugiperda or Trichoplusia ni or in T. ni larvae. Although cg30 is known to be transcribed as an early monocistronic RNA and as the second cistron of an abundant late bicistronic RNA, production of a CG30-beta-galactosidase fusion protein was observed mainly at early times postinfection. Viruses containing cg30 had a subtle growth advantage over those lacking cg30 after several viral passages in cell culture. We employed transient expression assays to determine whether cg30 and pe-38, an AcMNPV gene that encodes a polypeptide with zinc finger-like and leucine zipper motifs similar to those of cg30, have redundant functions. Although pe-38 may have a role in AcMNPV gene expression, there was no indication that cg30 and pe-38 are functionally redundant.
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PMID:In vivo and in vitro analyses of recombinant baculoviruses lacking a functional cg30 gene. 828 48

The Epstein-Barr virus BZLF1 gene product EB1 (also called ZEBRA and Zta), is a transcription factor belonging to the bZIP (basic domain leucine zipper) family of nuclear proteins. Translocation to the nucleus of EB1 (J. Becker, U. Leser, M. Marschall, A. Langford, W. Jilg, H. Gelderblom, P. Reichart, and H. Wolf, Proc. Natl. Acad. Sci. USA 88:8332-8336, 1991) and of two other bZIP proteins, c-Jun and c-Fos (P. Roux, J.-M. Blanchard, A. Fernandez, N. Lamb, P. Jeanteur, and M. Piechaczyk, Cell 63:341-351, 1990), has been shown to be subject to regulation. We show here that for both EB1 and Jun the nuclear targeting signals (NTS) in the proteins' primary sequences are two clusters of positively charged amino acids. These clusters, called BRA and BRB, are necessary and sufficient to direct beta-galactosidase to the nuclear compartment and act as a bipartite NTS. They are conserved among all the bZIP proteins, and although they are not identical, they probably share the same function. Site-directed mutagenesis studies made on these basic clusters suggest that they also act as a bipartite NTS in the EB1 protein. Our results also demonstrate that in EB1 and Jun, these bipartite NTS are superimposed with bipartite DNA-binding domains, since BRA and BRB are required in vitro for direct and specific contact between these proteins and their DNA-binding sites.
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PMID:The DNA-binding domain of two bZIP transcription factors, the Epstein-Barr virus switch gene product EB1 and Jun, is a bipartite nuclear targeting sequence. 838 Apr 64

The AraC protein, which regulates the L-arabinose operons in Escherichia coli, was dissected into two domains that function in chimeric proteins. One provides a dimerization capability and binds the ligand arabinose, and the other provides a site-specific DNA-binding capability and activates transcription. In vivo and in vitro experiments showed that a fusion protein consisting of the N-terminal half of the AraC protein and the DNA-binding domain of the LexA repressor dimerizes, binds well to a LexA operator, and represses expression of a LexA operator-beta-galactosidase fusion gene in an arabinose-responsive manner. In vivo and in vitro experiments also showed that a fusion protein consisting of the C-terminal half of the AraC protein and the leucine zipper dimerization domain from the C/EBP transcriptional activator binds to araI and activates transcription from a PBAD promoter-beta-galactosidase fusion gene. Dimerization was necessary for occupancy and activation of the wild-type AraC binding site.
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PMID:Functional domains of the AraC protein. 851 13

A yeast two-hybrid system was used to identify mutants of Max that exhibit an increased affinity for Myc. Truncated forms of the Max helix-loop-helix/leucine zipper motif (HLH/Zip) were first expressed in a two- hybrid system in which the bait protein was the HLH/Zip motif of Myc. Deletion of amino acids both amino-terminal and carboxy-terminal to the leucine zipper of Max reduced Myc/Max heterodimer formation as evidenced by a 160-fold reduction in the expression of the lacZ gene. A library of partially randomized sequences encoding this minimal leucine zipper of Max was then screened using the two-hybrid system. Mutant forms of the Max leucine zipper were identified whose affinities for Myc, as measured by beta-galactosidase activity in yeast lysates, were from 8- to 200-fold greater than the wild-type Max zipper. These Max mutants were shown to interact specifically with Myc and not with wild-type Max. Of 29 mutants analyzed, all had a unique amino acid sequence. This result illustrates the value of a genetic screen in the identification of a collection of mutant forms of the Max leucine zipper whose structures would not have been predicted based on principles of structure-based design.
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PMID:Use of a two-hybrid system to identify mutations in Max that confer increased affinity for Myc. 940

The C/EBP-related proteins (C/EBPalpha, CRP1, C/EBPbeta, and C/EBPdelta) form a subfamily of bZIP (basic region/leucine zipper) transcription factors that display sequence homology within the bZIP domain. The conserved basic region contains two motifs that exhibit significant homology to the bipartite nuclear localization signal (NLS) first described in nucleoplasmin. CRP1 and C/EBPbeta proteins bearing deletions of the basic region accumulate in the cytoplasm, in contrast to their normal nuclear location. Analysis of chimeric proteins consisting of CRP1 basic region sequences fused to beta-galactosidase revealed that the CRP1 basic region contains a single NLS that differs from conventional bipartite signals in two ways. First, mutation of a pair of arginine residues at the N-terminus of the proposed NLS does not disrupt its function. Second, the CRP1 NLS requires additional nonbasic residues at its C-terminus. A basic residue within the CRP1 NLS that is not conserved within the C/EBP family is occupied instead by an uncharged residue in C/EBPalpha and C/EBPbeta. When this nonconserved arginine residue was changed to alanine the CRP1 NLS behaved as a classical bipartite signal, suggesting that bipartite NLSs are present in all family members but that NLSs of the individual members differ slightly. Additionally, mutation of critical NLS residues in the intact CRP1 and C/EBPbeta proteins showed that these elements exhibit more bipartite-like characteristics when present in their normal sequence context. Finally, we observed that a C/EBPbeta protein lacking its NLS can be localized to the nucleus when coexpressed with C/EBPalpha, indicating that a single NLS is sufficient to promote nuclear transport of a bZIP dimer.
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PMID:C/EBP proteins contain nuclear localization signals imbedded in their basic regions. 949 18

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