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)

Apurinic/apyrimidinic (AP) sites in DNA are considered to be highly mutagenic and must be corrected to preserve genetic integrity. We have isolated cDNAs from the Trypanosomatidae Leishmania major and Trypanosoma cruzi capable of complementing the deficiency of exonuclease III and dUTPase in the Escherichia coli mutant BW286. This double mutant is non-viable at 37 degreesC due to an accumulation of non-repaired sites following excision of uracil from DNA. The genes were expressed as beta-galactosidase-AP endonuclease fusion proteins and as such are active in repair of AP sites in E. coli. The Trypanosoma and Leishmania sequences have unique N-termini containing sequences that correspond to probable nuclear transport signals, while the C-terminal domains exhibit pronounced similarity to exonuclease III. The L.major gene was overexpressed as a histidine-tagged protein and recombinant enzyme exhibited endonuclease activity on AP DNA in vitro. Furthermore, expression of the enzymes in AP endonuclease-deficient E.coli mutants conferred significant resistance to killing by methylmethane sulphonate and peroxides. This study constitutes one of the first descriptions of DNA repair enzymes in these pathogenic organisms where oxidative stress is an important mechanism of both drug-mediated and intracellular killing.
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PMID:Apurinic/apyrimidinic endonuclease genes from the trypanosomatidae leishmania major and Trypanosoma cruzi confer resistance to oxidizing agents in DNA repair-deficient Escherichia coli. 988 72

The retroviral nucleocapsid (NC) protein contains highly conserved amino acid sequences (-Cys-X2-Cys-X4-His-X4-Cys-) designated retroviral (CCHC) Zn2+ fingers. The NC protein of murine leukemia viruses contains one NC Zn2+ finger and mutants that were competent in metal binding (CCCC and CCHH) packaged wild-type levels of full-length viral RNA but were not infectious. These studies were extended to human immunodeficiency virus type 1 (HIV-1), a virus with two NC Zn2+ fingers. Viruses with combinations of CCHC, CCCC, and CCHH Zn2+ fingers in each position of HIV-1 NC were characterized. Mutant particles contained the normal complement of processed viral proteins. Four mutants packaged roughly wild-type levels of genomic RNA, whereas the remaining mutants packaged reduced levels. Virions with mutated C-terminal position NC fingers were replication competent. One interesting mutant, containing a CCCC Zn2+ finger in the N-terminal position of NC, packaged wild-type levels of viral RNA and showed approximately 5% wild-type levels of infectivity when examined in CD4-expressing HeLa cells containing an HIV-1 LTR/beta-galactosidase construct. However, this particular mutant was replication defective in H9 cells; all other mutants were replication defective over the 8-week course of the assay. Two long terminal repeat viral DNA species could be detected in the CCCC mutant but not in any of the other replication-defective mutants. These studies show that the N-terminal Zn2+ finger position is more sensitive to alterations than the C-terminal position with respect to replication. Additionally, the retroviral (CCHC) NC Zn2+ finger is required for early infection processes. The evolutionary pressure to maintain CCHC NC Zn2+ fingers depends mainly on its function in infection processes, in addition to its function in genome packaging.
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PMID:Strict conservation of the retroviral nucleocapsid protein zinc finger is strongly influenced by its role in viral infection processes: characterization of HIV-1 particles containing mutant nucleocapsid zinc-coordinating sequences. 1008 30

The N-end rule relates the in vivo half-life of a protein to the identity of its N-terminal residue. Ubr1p, the recognition (E3) component of the Saccharomyces cerevisiae N-end rule pathway, contains at least two substrate-binding sites. The type 1 site is specific for N-terminal basic residues Arg, Lys, and His. The type 2 site is specific for N-terminal bulky hydrophobic residues Phe, Leu, Trp, Tyr, and Ile. Previous work has shown that dipeptides bearing either type 1 or type 2 N-terminal residues act as weak but specific inhibitors of the N-end rule pathway. We took advantage of the two-site architecture of Ubr1p to explore the feasibility of bivalent N-end rule inhibitors, whose expected higher efficacy would result from higher affinity of the cooperative (bivalent) binding to Ubr1p. The inhibitor comprised mixed tetramers of beta-galactosidase that bore both N-terminal Arg (type 1 residue) and N-terminal Leu (type 2 residue) but that were resistant to proteolysis in vivo. Expression of these constructs in S. cerevisiae inhibited the N-end rule pathway much more strongly than the expression of otherwise identical beta-galactosidase tetramers whose N-terminal residues were exclusively Arg or exclusively Leu. In addition to demonstrating spatial proximity between the type 1 and type 2 substrate-binding sites of Ubr1p, these results provide a route to high affinity inhibitors of the N-end rule pathway.
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PMID:Bivalent inhibitor of the N-end rule pathway. 1036 69

p73 is a recently cloned tumor suppressor gene that is highly homologous to p53, and the products of both possess similar functions in inhibiting cell growth and inducing apoptosis. Interestingly, the COOH-terminal region of p53 displays no significant homology with that of p73. Moreover, p73 has an additional segment at its COOH terminus. Recently, we have found two mutations of p73 with amino acid substitution (P405R and P425L) in primary neuroblastomas. Because the region (amino acid residues 382-491) contains a glutamine- and proline-rich domain, we hypothesized that it has a transactivation function, and the mutations found in tumors result in loss of function. To test it, we used the yeast GAL4 DNA-binding fusion system. Yeast transformants expressing a GAL4-p73(1-112) or a GAL4-p73alpha(380-513) fusion protein were grown in SD medium lacking histidine and tryptophan and exhibited a significant induction of beta-galactosidase activity. Transient transfection experiments revealed that both of fusion proteins could induce the chloramphenicol acetyltransferase activity in mammalian cells, indicating that the COOH-terminal as well as NH2-terminal regions of p73 had significantly high levels of transactivation activity. Furthermore, the former activity was severely impaired in two naturally occurring mutant forms found in neuroblastomas. These suggest that, unlike p53, p73 has two domains with transactivation function, one in the NH2-terminal region and the other in the COOH-terminal region. Loss of function mutation in the latter might be involved in tumorigenesis and/or tumor progression.
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PMID:Identification of a transactivation activity in the COOH-terminal region of p73 which is impaired in the naturally occurring mutants found in human neuroblastomas. 1038 37

Thioredoxin (TRX) has disulfide reducing activity and is reported to be involved in various cellular functions including the promotion of cell growth and apoptosis. To help understand the molecular mechanism through which TRX is involved in immunological systems, we screened a cDNA library derived from a B-cell population of Epstein-Barr virus-transformed human peripheral blood lymhocyte for TRX binding proteins by use of a yeast two-hybrid system. Among plasmids from positive clones, a plasmid contained an insert which has homology with human p40phox, a cytosolic component of phagocyte oxidase. This insert sequence extended from the base + 181 to the stop codon of p40phox. The entire coding region of p40phox was shown to interact with TRX both in assays of histidine prototrophy and beta-galactosidase activity; in contrast, no interaction was observed with substituted mutant TRX (C32S/C35S), which lacks reducing activity. These results showed that p40phox interacts with TRX and indicated the possibility of TRX-dependent regulation of phagocyte oxidase activity.
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PMID:Demonstration of the interaction of thioredoxin with p40phox, a phagocyte oxidase component, using a yeast two-hybrid system. 1039 71

We have identified a novel gene, USP15, encoding a human ubiquitin-specific protease (USP). The USP15 protein consists of 952 amino acids with a predicted molecular mass of 109.2 kDa and contains the highly conserved Cys and His boxes present in all members of the UBP family of deubiquitinating enzymes. USP15 shares 60.5% sequence identity and 76% sequence similarity with the human homolog (UNP/Unph/USP4) of the mouse Unp proto-oncogene. Recombinant USP15 demonstrated ubiquitin-specific protease activity against engineered linear fusions of ubiquitin to beta-galactosidase and glutathione S-transferase. USP15 can also cleave the ubiquitin-proline bond, a property previously unique to Unp/UNP. Chromosomal mapping by fluorescence in situ hybridization and radiation hybrid analyses localized the USP15 gene to chromosome band 12q14, a different location than that of UNP (3p21.3). Analysis of expressed sequence tag databases reveals evidence of alternate polyadenylation sites in the USP15 gene and also indicates that the gene may possess an exon/intron structure similar to that of the Unp gene, suggesting they have descended from a common ancestor. A systematic nomenclature for the human USPs is proposed.
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PMID:Identification, functional characterization, and chromosomal localization of USP15, a novel human ubiquitin-specific protease related to the UNP oncoprotein, and a systematic nomenclature for human ubiquitin-specific proteases. 1044 27

Microbial proline 4-hydroxylases, which hydroxylate free L-proline to trans-4-hydroxy-L-proline, were screened in order to establish an industrial system for biotransformation of L-proline to trans-4-hydroxy-L-proline. Enzyme activities were detected in eight strains, including strains of Dactylosporangium spp. and Amycolatopsis spp. The Dactylosporangium sp. strain RH1 enzyme was partially purified 3,300-fold and was estimated to be a monomer polypeptide with an apparent molecular mass of 31 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Degenerate primers based on the N-terminal amino acid sequence of the 31-kDa polypeptide were synthesized in order to amplify the corresponding 71-bp DNA fragment. A 5.5-kbp DNA fragment was isolated by using the 71-bp fragment labeled with digoxigenin as a probe for a genomic library of Dactylosporangium sp. strain RH1 constructed in Escherichia coli. One of the open reading frames found in the cloned DNA, which encoded a 272-amino-acid polypeptide (molecular mass, 29, 715 daltons), was thought to be a proline 4-hydroxylase gene. The gene was expressed in E. coli as a fused protein with the N-terminal 34 amino acids of the beta-galactosidase alpha-fragment. The E. coli recombinant exhibited proline 4-hydroxylase activity that was 13. 6-fold higher than the activity in the original strain, Dactylosporangium sp. strain RH1. No homology was detected with other 2-oxoglutarate-dependent dioxygenases when databases were searched; however, the histidine motif conserved in 2-oxoglutarate-dependent dioxygenases was found in the gene.
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PMID:Microbial proline 4-hydroxylase screening and gene cloning. 1047 12

Heat shock proteins (HSP) like Hsp70 and gp96 are potent molecules to induce MHC class I-restricted cytotoxic T cells against antigens present in the cells from which the HSP were isolated. Fusion proteins consisting of mycobacterial Hsp70 covalently linked to antigenic peptide sequences are also capable of generating CTL specific for the peptide-encoded antigens. For effective CTL induction direct binding of the peptide or covalent association of the peptide in the case of antigenic fusion proteins is required. Since mycobacterial Hsp70 and eukaryotic Hsp70 differ significantly in their primary structure, and since gp96 compared to Hsp70 is more efficient in priming antigen specific CTL in our hands, we created fusion proteins consisting of His-tagged eukaryotic gp96 fused C-terminally to various peptide antigens. Here, we used antigenic sequences derived from the established ovalbumin (OVA) and beta-galactosidase (beta-GAL) model systems. We show that in vitro established OVA and beta-GAL specific CTL clones release TNF-alpha and IFN-gamma when incubated with recombinant gp96 irrespective of the antigenic peptide sequences hooked to the C-terminus of gp96. In contrast to gp96 preparations purified from beta-GAL expressing cell lines, recombinant gp96/beta-GAL fusion proteins were not able to generate beta-GAL-specific T cells in vivo. Possible explanations for the lack of antigen-specific immunogenicity of gp96 fusion proteins in vivo are discussed.
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PMID:Activation of cytotoxic T cells in vitro by recombinant gp96 fusion proteins irrespective of the 'fused' antigenic peptide sequence. 1048 63

A full-length cDNA encoding ubiquitin C-terminal hydrolase-6 (UCH-6) was isolated from the chick skeletal muscle cDNA library. The sequence of two peptides generated from purified UCH-6 matched perfectly with the predicted amino acid sequence. Nucleotide sequence analysis of the cDNA containing an open reading frame of 690 base pairs revealed that the protease consists of 230 residues with a calculated molecular mass of 26,315 Da. UCH-6 belonged to members of the UCH family containing highly conserved Cys, His, and Asp domains and showed 86% amino acid identity to human UCH-L3. Interestingly, most tissues examined contained significant amounts of UCH-6 mRNA, while human UCH-L3 is expressed only in the brain, lungs, and red cells. Moreover, UCH-6, unlike other UCH family enzymes including UCH-L3, could release free ubiquitin from ubiquitin-beta-galactosidase fusion proteins both in vivo and in vitro. The ubiquitous expression pattern and unusual substrate specificity of UCH-6 suggest that the enzyme may represent a distinct subfamily of UCH-L3.
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PMID:Molecular cloning of chick UCH-6 which shares high similarity with human UCH-L3: its unusual substrate specificity and tissue distribution. 1052 71

In gram-positive bacteria, the HPr protein of the phosphoenolpyruvate:sugar phosphotransferase system (PTS) can be phosphorylated on a histidine residue at position 15 (His(15)) by enzyme I (EI) of the PTS and on a serine residue at position 46 (Ser(46)) by an ATP-dependent protein kinase (His approximately P and Ser-P, respectively). We have isolated from Streptococcus salivarius ATCC 25975, by independent selection from separate cultures, two spontaneous mutants (Ga3.78 and Ga3.14) that possess a missense mutation in ptsH (the gene encoding HPr) replacing the methionine at position 48 by a valine. The mutation did not prevent the phosphorylation of HPr at His(15) by EI nor the phosphorylation at Ser(46) by the ATP-dependent HPr kinase. The levels of HPr(Ser-P) in glucose-grown cells of the parental and mutant Ga3.78 were virtually the same. However, mutant cells growing on glucose produced two- to threefold less HPr(Ser-P)(His approximately P) than the wild-type strain, while the levels of free HPr and HPr(His approximately P) were increased 18- and 3-fold, respectively. The mutants grew as well as the wild-type strain on PTS sugars (glucose, fructose, and mannose) and on the non-PTS sugars lactose and melibiose. However, the growth rate of both mutants on galactose, also a non-PTS sugar, decreased rapidly with time. The M48V substitution had only a minor effect on the repression of alpha-galactosidase, beta-galactosidase, and galactokinase by glucose, but this mutation abolished diauxie by rendering cells unable to prevent the catabolism of a non-PTS sugar (lactose, galactose, and melibiose) when glucose was available. The results suggested that the capacity of the wild-type cells to preferentially metabolize glucose over non-PTS sugars resulted mainly from inhibition of the catabolism of these secondary energy sources via a HPr-dependent mechanism. This mechanism was activated following glucose but not lactose metabolism, and it did not involve HPr(Ser-P) as the only regulatory molecule.
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PMID:Phenotypic consequences resulting from a methionine-to-valine substitution at position 48 in the HPr protein of Streptococcus salivarius. 1055 56

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