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

Four stretches of amino acid sequences encoded in conserved HIV-1 env domains and four parallel regions of the SIVmac env (two from gp120 and two from gp41/p32E) were fused to the NH2 terminus of beta-galactosidase by recombinant DNA techniques and used to analyze sera from three macaque species experimentally infected with SIV/Mne. All SIVmac env sequences were recognized by sera from the SIV/Mne-inoculated macaques. Western blot analysis performed with whole SIV/Mne, SIVmac, SIVagm, and HIV-1 antigens and sera from SIV/Mne-infected macaques also demonstrates that SIV/Mne is immunologically more closely related to SIVmac than to SIVagm or to HIV-1. Antibody levels to the gp120 NH2-terminal SIV-88 epitope appear to decrease in the infected Macaca nemestrina with progression of disease, as was also reported for the parallel HIV-1 epitope in HIV-1-infected individuals. Sera from all infected macaques reacted with the p32E-SIV-582 epitope (EKYLEDQAQLNAWGCAFRQVC). High titers to this immunodominant epitope could be detected at least 9 weeks postinfection and at a time when primarily the p28 and p32E antibodies were detectable in Western blots performed with whole disrupted SIV/Mne virus. In the majority of animals, antibody titers of 1:100,000 to SIV-582 develop during the infection and persist until death. Antibody responses to the SIV env epitopes in SIV/Mne-infected macaques thus resemble in many aspects (prevalence and immunogenicity) those observed previously for the corresponding HIV-1 env epitopes in HIV-1-infected humans.
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PMID:Antibody recognition of SIVmac envelope peptides in plasma from macaques experimentally infected with SIV/Mne. 254 33

The gene responsible for the transport of lactose into Streptococcus thermophilus (lacS) was cloned in Escherichia coli as a 4.2-kilobase fragment from an EcoRI library of chromosomal DNA by using the vector pKK223-3. From deletion analysis, the gene for lactose transport mapped to two HindIII fragments with a total size of 2.8 kilobases. The gene was transcribed in E. coli from its own promoter. Functional expression of lactose transport activity was shown by assaying for the uptake and exchange of lactose both in intact cells and in membrane vesicles. The nucleotide sequence of lacS and 200 to 300 bases of 3' and 5' flanking regions were determined. The gene was 1,902 base pairs long, encoding a 69,454-dalton protein with an NH2-terminal hydrophobic region and a COOH-terminal hydrophilic region. The NH2-terminal end was homologous with the melibiose carrier of E. coli (23% similarity overall; greater than 50% similarity for regions with at least 16 amino acids), whereas the COOH-terminal end showed 34 to 41% similarity with the enzyme III (domain) of three different phosphoenolpyruvate-dependent phosphotransferase systems. Among the conserved amino acids were two histidyl residues, of which one has been postulated to be phosphorylated by HPr. Since sugars are not phosphorylated during translocation by the lactose transport system, it is suggested that the enzyme III-like region serves a regulatory function in this protein. The lacS gene also appears similar to the partially sequenced lactose transport gene of Lactobacillus bulgaricus (lacL; greater than 60% similarity). Furthermore, the 3' flanking sequence of the S. thermophilus lactose transport gene showed approximately 50% similarity with the N-terminal portion of the beta-galactosidase gene of L. bulgaricus. In both organisms, the lactose transport gene and the beta-galactosidase appear to be separated by a 3-base-pair intercistronic region.
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PMID:Lactose transport system of Streptococcus thermophilus: a hybrid protein with homology to the melibiose carrier and enzyme III of phosphoenolpyruvate-dependent phosphotransferase systems. 264 91

The TRM1 gene of Saccharomyces cerevisiae encodes a tRNA modification enzyme, N2,N2-dimethylguanosine-specific tRNA methyltransferase, which modifies both mitochondrial and cytoplasmic tRNAs. The enzyme is targeted to mitochondria for the modification of mitochondrial tRNAs. Cellular fractionation and indirect immunofluorescence studies reported here demonstrate that this enzyme is also localized to the nucleus. Further, immunofluorescence experiments using strains that overproduce the enzyme show a staining at the periphery of the nucleus suggesting that the enzyme is found in a subnuclear destination near or at the nuclear membrane. There is no obvious cytoplasmic staining in these overproducing strains. Fusion protein technology was used to begin to localize sequences involved in the nuclear targeting of this enzyme. Indirect immunofluorescence studies indicate that sequences between the first 70 and 213 NH2-terminal amino acids of the methyltransferase are sufficient to target Escherichia coli beta-galactosidase to nuclei.
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PMID:N2,N2-dimethylguanosine-specific tRNA methyltransferase contains both nuclear and mitochondrial targeting signals in Saccharomyces cerevisiae. 267 19

The nucleotide sequence of the celD gene, encoding the previously crystallized endoglucanase D of Clostridium thermocellum, is reported. The enzyme shares a conserved, reiterated domain with the COOH-terminal end of endoglucanases A and B from the same organism. The overexpression in Escherichia coli of celD subcloned in pUC8 appears to result from a translational fusion of the NH2-terminal end of the endoglucanase with the NH2-terminal end of beta-galactosidase.
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PMID:Nucleotide sequence of the cellulase gene celD encoding endoglucanase D of Clostridium thermocellum. 302 10

A rabbit poxvirus genomic library contained within the expression vector lambda gt11 was screened with polyclonal antiserum prepared against vaccinia virus nucleic acid-dependent nucleoside triphosphatase (NTPase)-I enzyme. Five positive phage clones containing from 0.72- to 2.5-kilobase-pair (kbp) inserts expressed a beta-galactosidase fusion protein that was reactive by immunoblotting with the NTPase-I antibody. Hybridization analysis allowed the location of this gene within the vaccinia HindIIID restriction fragment. From the known nucleotide sequence of the 16-kbp vaccinia HindIIID fragment, we identified a region that contains a 1896-base open reading frame coding for a 631-amino acid protein. Analysis of the complete sequence revealed a highly basic protein, with hydrophilic COOH and NH2 termini, various hydrophobic domains, and no significant homology to other known proteins. Translational studies demonstrate that NTPase-I belongs to a late class of viral genes. This protein is highly conserved among Orthopoxviruses.
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PMID:Molecular cloning, encoding sequence, and expression of vaccinia virus nucleic acid-dependent nucleoside triphosphatase gene. 302 46

The posttranscriptional regulator (p27x-III) of human T cell leukemia virus type I (HTLV-I) is located predominantly in the cell nucleolus. A highly basic amino-terminal sequence (NH2-Met-Pro-Lys-Thr-Arg-Arg-Arg-Pro-Arg-Arg-Ser-Gln-Arg-Lys-Arg-Pro-Pro -Thr- Pro) in this protein, when fused to the amino termini of beta-galactosidase and p40x of HTLV-I, acts as an autonomous signal capable of directing the hybrid proteins to the cell nucleolus.
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PMID:Sequence requirements for nucleolar localization of human T cell leukemia virus type I pX protein, which regulates viral RNA processing. 304 3

A series of plasmids encoding hybrid proteins comprising various lengths of the NH2-terminal region of colicin N coupled to almost complete beta-galactosidase or alkaline phosphatase polypeptides was constructed by transposon mutagenesis of ColN plasmid derivatives. Synthesis of the hybrid proteins, like that of colicin N itself, was regulated by the SOS response. Large quantities of the hybrid proteins accumulated in the cytoplasm (beta-galactosidase) or particulate fractions (alkaline phosphatase). When the gene fusions were expressed in cells that were producing colicin E2 and expressing the ColE2 lysis gene, only very low levels of the hybrid proteins were found in the medium. The results suggest that the amino-terminal part of colicin N does not contain sufficient biochemical information to promote the release of the hybrid proteins into the medium.
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PMID:beta-Galactosidase and alkaline phosphatase do not become extracellular when fused to the amino-terminal part of colicin N. 309 7

Our previous studies demonstrated that a site-specific cleavage event initiates the degradation of large premature termination polypeptides of beta-galactosidase in Escherichia coli. We have isolated the first cleavage intermediate, the "B" polypeptide, by elution from sodium dodecyl sulfate-polyacrylamide gels. The NH2 terminus of this protein, determined by automated Edman degradation, was that of the wild-type molecule and thus established that the first cleavage event was at the COOH-terminal end. The sequence of the COOH-terminal end of the B polypeptide was determined by using the enzyme carboxypeptidase Y. Direct assignment of COOH-terminal residues was made by using o-phthaldialdehyde derivatization and the stoichiometry confirmed by a double-label analysis. The COOH-terminal end of the B polypeptide is at position 837 in the beta-galactosidase sequence. If a single endoproteolytic cleavage event was responsible, the cleavage would have occurred between 2 threonine residues (at positions 837 and 838) that are located within a hydrophobic domain. We have observed other covalent modifications that precede the appearance of the B polypeptide, but these do not appear to participate in signaling the first cleavage event. The structure of the COOH-terminal end of B suggests a high degree of specificity by the initial cleavage enzyme. We propose that this unique site serves as a specific signal and that exposure of this site to the specific cleavage enzyme controls the event initiating the degradation pathway.
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PMID:Early steps initiating a degradation pathway in Escherichia coli. Characterization of the first intermediate. 310 54

Many bioactive peptides terminate with an amino acid alpha-amide at their COOH terminus. The enzyme responsible for this essential posttranslational modification is known as peptidyl-glycine alpha-amidating monooxygenase or PAM. We identified cDNAs encoding the enzyme by using antibodies to screen a bovine intermediate pituitary lambda gt11 expression library. Antibodies to a beta-galactosidase/PAM fusion protein removed PAM activity from bovine pituitary homogenates. The 108,207 dalton protein predicted by the complete cDNA is approximately twice the size of purified PAM. An NH2-terminal signal sequence and short propeptide precede the NH2 terminus of purified PAM. The sequences of several PAM cyanogen bromide peptides were localized in the NH2-terminal half of the predicted protein. The cDNA encodes an additional 430 amino acid intragranular domain followed by a putative membrane spanning domain and a hydrophilic cytoplasmic domain. The forms of PAM purified from bovine neurointermediate pituitary may be generated by endoproteolytic cleavage at a subset of the 10 pairs of basic amino acids in the precursor. High levels of PAM mRNA were found in bovine pituitary and cerebral cortex. In corticotropic tumor cells, levels of PAM mRNA and pro-ACTH/endorphin mRNA were regulated in parallel by glucocorticoids and CRF.
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PMID:Structure of the precursor to an enzyme mediating COOH-terminal amidation in peptide biosynthesis. 315 62

We have developed a rapid and general technique for purification of a protein encoded by a cistron contained in a recombinant DNA clone. The technique consists of fusing the target cistron DNA in the correct reading frame to a marker cistron via a piece of DNA that codes for a linker peptide. The target cistron in the example presented here is the replication initiator cistron of the plasmid R6K. The linker is a DNA fragment encoding 60 amino acids from the triple helical region of chicken pro alpha-2 collagen, and the marker cistron encodes the beta-galactosidase protein of Escherichia coli. The tripartite hybrid protein was rapidly purified by selective binding to and elution from a beta-galactosidase specific-affinity column. The hybrid protein was then digested with a purified microbial collagenase to cleave the linker, and high-pressure liquid chromatography allowed the rapid isolation of the target protein from the marker protein. Using this technique, we have purified the highly labile R6K replication initiator to homogeneity, and we have resolved the protein into NH2-terminal and COOH-terminal segments. We have further shown, by in vitro binding, that the COOH-terminal segment has at least one DNA-binding domain. The domain binds to the same restriction fragments of the R6K chromosome as the intact or beta-galactosidase-tagged initiator protein.
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PMID:Rapid purification of a cloned gene product by genetic fusion and site-specific proteolysis. 608 42


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