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)

1. beta-D-Galactopyranosylmethyl-p-nitrophenyltriazene is an active-site-directed irreversible inhibitor of Mg2+-bound and Mg2+-free lacZ beta-galactosidase from Escherichia coli. 2. The Mg2+-enzyme binds the inhibitor more tightly but the complex then decomposes less rapidly than is the case with Mg2+-free enzyme. 3. Loss of enzyme activity is a linear function of the fraction of enzyme protomers to which are attached beta-D-galactopranosyl[14C]methyl residues: complete inactivation of fully active enzyme results in incorporation of 0.91 equivalent of carbohydrate label per enzyme protomer. 4. When the beta-galactopyranosylmethyl cation is generated in the active site of Mg2+-enzyme, it is captured essentially completely by the protein, but in the active site of Mg2+-free enzyme it is only captured with an efficiency of 25%. 5. Labelled enzyme was carboxymethylated and digested with trypsin; acidic hydrolysis of the isolated tryptic peptide, and field-desorption mass spectrometry of the isolated radioactive derivative, showed it to be 2,5-dioxo-3[2-(beta-D-galactopyranosylmethylthio)ethyl]-1,6-trimethylenepiperazine. 6. This is considered to have arisen from labelling of the sulphur atom of a methionine residue adjacent to a proline residue. 7. The complete amino acid sequence of the molecule [Fowler & Zabin (1977) Proc. Natl. Acad. Sci. U.S.A. 74, 1507-1510] enables the labelled methionine residue to be identified as either Met-421 or Met-500. 8. Sequence data [Fowler, Zabin, Sinnott & Smith (1978) J. Biol. Chem. in the press] show the site of attack to be Met-500.
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PMID:Affinity labelling with a deaminatively generated carbonium ion. Kinetics and stoicheiometry of the alkylation of methionine-500 of the lacZ beta-galactosidase of Escherichia coli by beta-D-galactopyranosylmethyl-p-nitrophenyltriazene. 10 21

We have isolated strains of Escherichia coli in which an amino-terminal portion of the cytoplasmic enzyme beta-galactosidase is replaced by an amino-terminal portion of the periplasmic enzyme alkaline phosphatase. The synthesis of these hybrid proteins is regulated by inorganic phosphate and they are located in the cytoplasm. One of these proteins was purified, and 14 amino acids of the amino-terminal sequence were determined. The first five amino acids, Met-Lys-Gln-Ser-Thr, appear to represent a portion of the signal sequence of the precursor of alkaline phosphatase, and the remaining sequence corresponds to that of beta-galactosidase, beginning at amino acid residue 20. The approach described here could be used for the analysis of signal sequences of exported proteins and for partial amino acid sequence determination of certain of certain other proteins.
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PMID:Use of gene fusions to determine a partial signal sequence of alkaline phosphatase. 11 91

The phage DNA-directed synthesis of beta-galactosidase has been examined in a system containing the following purified Escherichia coli factors: RNA polymerase; cyclic AMP receptor protein; N10-formyltetrahydrofolate Met-tRNAf transformylase; initiation factors 1, 2, and 3; elongation factors Tu, Ts, and G; release factors 1 and 2; 20 aminoacyl-tRNA synthetases; L factor (Kung, H. F., Spears, C., and Weissbach, H. (1974) J. Biol. Chem. 250, 1556-1562); and Lalpha (Kung, H.-F., Spears, C., and Weissbach, H. (1976) Fed. proc. 35, 1537). Under these conditions, beta-galactosidase synthesis occurs at less than 1% of the rate obtained with unfractionated extracts, which suggested that other required components were lacking. The difficulty in obtaining large amounts of the purified aminoacyl-tRNA synthetases for these studies made it necessary to modify the system. It was possible to conserve many of the purified aminoacyl-tRNA synthetases since at least 13 of them could be replaced by an Ehrlich ascites extract. The ascites extract plus other E. coli purified factors was used as a basic system to search for additional components required for beta-galactosidase synthesis. The present report describes the purification from E. coli extracts of three fractions, called Lbeta, Lgamma, and Ldelta, that are needed to restore enzyme synthesis.
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PMID:DNA-directed in vitro synthesis of beta-galactosidase. Studies with purified factors. 56 Oct 72

Intracistronic alpha-complementation between a cyanogen bromide digest of beta-galactosidase and an extract of the lac Zminus operator-proximal deletion mutant M15 was used to monitor the purification of a cyanogen bromide peptide (CB2) responsible for the complementation. Key steps in the purification were ion exchange chromatography on carboxymethylcellulose and sulfopropyl-Sephadex in the presence of urea, and Sephadex gel filtration. CB2 contains residues 3 to 92 of beta-galactosidase. Its sequence is: Ile-Thr-Asp-Ser-Leu-Ala-Val-Val-Leu-Gln-Arg-Arg-Asp-Trp-Glu-Asn-Pro-Gly-Val-Thr-Gln-Leu-Asn-Arg-Leu-Ala-Ala-His-Pro-Pro-Phe-Ala-Ser-Trp-Arg-Asn-Ser-Glu-Glu-Ala-Arg-Thr-Asp-Arg-Pro-Ser-Gln-Gln-Leu-Arg-Ser-Leu-Asn-Gly-Glu-Trp-Arg-Phe-Ala-Trp-Phe-Pro-Ala-Pro-Glu-Ala-Val-Pro-Glu-Ser-Trp-Leu-Glu-Cys-Asp-Leu-Pro-Glu-Ala-Asp-Thr-Val-Val-Val-Pro-Ser-Asn-Trp-Gln-Met. Thus no more than 1/13 of the beta-galactosidase polypeptide chain, starting 2 residues from the NH2 terminus, is necessary for alpha-complementation with M15 as alpha-acceptor.
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PMID:Amino acid sequence of beta-galactosidase. IV. Sequence of an alpha-complementing cyanogen bromide peptide, residues 3 to 92. 109 37

Biotinylation of fusion proteins in E. coli was studied using a sequence of Propionibacterium freudenreichii transcarboxylase 1.3S biotin subunit. As the biotinylation sequence, we examined two sequences: one was of amino acid residues [84-123] of 1.3S, a partial sequence containing a region from a conserved tetrapeptide (Ala-Met-Bct-Met) around the biotinyl lysine (Bct) to the carboxyl terminal; the other was of an almost entire sequence [18-123]. We constructed recombinant plasmids for fusion proteins of beta-galactosidase, of chloramphenicol acetyltransferase, and of alkaline phosphatase. We found the biotinylation in the [18-123] sequence fused to alkaline phosphatase.
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PMID:In vivo biotinylation of fusion proteins expressed in Escherichia coli with a sequence of Propionibacterium freudenreichii transcarboxylase 1.3S biotin subunit. 136 26

We initiated a genetic reversion analysis at the HIS4 locus to identify components of the translation initiation complex that are important for ribosomal recognition of an initiator codon. Three unlinked suppressor loci, suil, sui2, and SUI3, that restore expression of both HIS4 and HIS4-lacZ in the absence of an AUG initiator codon were identified. In previous studies, it was demonstrated that the sui2 and SUI3 genes encode mutated forms of the alpha and beta subunits, respectively, of eukaryotic translation initiation factor 2 (eIF-2). In this report, we describe the molecular and biochemical characterizations of the sui1 suppressor locus. The DNA sequence of the SUI1+ gene shows that it encodes a protein of 108 amino acids with a calculated Mr of 12,300. The sui1 suppressor genes all contain single base pair changes that alter a single amino acid within this 108-amino-acid sequence. sui1 suppressor strains that are temperature sensitive for growth on enriched medium have altered polysome profiles at the restrictive temperature typical of those caused by alteration of a protein that functions during the translation initiation process. Gene disruption experiments showed that the SUI1+ gene encodes an essential protein, and antibodies directed against the SUI1+ coding region identified a protein with the predicted Mr in a ribosomal salt wash fraction. As observed for sui2 and SUI3 suppression events, protein sequence analysis of His4-beta-galactosidase fusion proteins produced by sui1 suppression events indicated that a UUG codon is used as the site of translation initiation in the absence of an AUG start codon in HIS4. Changing the penultimate proline codon 3' to UUG at his4 to a Phe codon (UUC) blocks aminopeptidase cleavage of the amino-terminal amino acid of the His4-beta-galactosidase protein, as noted by the appearance of Met in the first cycle of the Edman degradation reaction. The appearance of Met in the first cycle, as noted, in either a sui1 or a SUI3 suppressor strain showed that the mechanism of suppression is the same for both suppressor genes and allows the initiator tRNA to mismatch base pair with the UUG codon. This suggests that the Sui1 gene product performs a function similar to that of the beta subunit of eIF-2 as encoded by the SUI3 gene. However, the Sui1 gene product does not appear to be a required subunit of eIF-2 on the basis of purification schemes designed to identify the GTP-dependent binding activity of eIF-2 for the initiator tRNA. In addition, suppressor mutations in the sui1 gene, in contrast to suppressor mutations in the sui2 or SUI3 gene, do not alter the GTP-dependent binding activity of the eIF-2. The simplest interpretation of these studies is that the sui1 suppressor gene defines an additional factor that functions in concert with eIF-2 to enable tRNAiMet to establish ribosomal recognition of an AUG initiator codon.
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PMID:The suil suppressor locus in Saccharomyces cerevisiae encodes a translation factor that functions during tRNA(iMet) recognition of the start codon. 172 2

Biochemical and metabolic data have led to the conclusion that the enzyme phosphoenolpyruvate carboxykinase (PEPCK; EC 4.1.1.32) contributes to a critical point of divergence in energy conservation pathways between mammals and nematodes. To facilitate the determination of the molecular basis for host vs parasite differences in PEPCK, we have cloned a cDNA encoding this enzyme from a parasitic nematode of ruminants, Haemonchus contortus. H. contortus PEPCK was cloned by functional complementation of a PEPCK-, malic enzyme- strain of Escherichia coli (E1786) using an egg stage H. contortus cDNA library in lambda ZAPII. Selection was for growth on malate as the sole carbon source (malate+ phenotype). We isolated a plasmid, pPEPCK, which reproducibly confers a malate+ phenotype in E1786. The sequence of the 2.0-kb EcoRI insert of pPEPCK predicts a 612-amino acid protein which shows about 74% similarity to Drosophila melanogaster and chicken PEPCK. Extracts of E1786[pPEPCK], but not E1786, contain IDP- or GDP-dependent PEPCK enzyme activity. Sequence analysis revealed that the open reading frame (ORF) in pPEPCK lacked a 5' initiation codon and was probably expressed as an in-frame fusion protein with beta-galactosidase. A strategy combining library screening with PCR analysis of positive clones led to the identification of a clone encoding 6 additional NH2-terminal amino acids, including a Met, which, by comparison with known PEPCK amino acid sequences, is likely to be the translation initiation site.
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PMID:Cloning of a cDNA encoding phosphoenolpyruvate carboxykinase from Haemonchus contortus. 174 Oct 16

11 cyanogen bromide (CB) peptides, comprising 70% of the large protein, Escherichia coli beta-galactosidase (GZ), were studied for their ability to induce T suppressor (Ts) cells capable of strongly suppressing the in vitro anti-fluorescein (FITC) response to GZ-FITC. Only CB-2 (amino acid residues 3-92) and CB-3 (residues 93-187) were found to bear such Ts-inducing epitopes. In examining the specificity of T helper cell (Th) targets susceptible to CB-2 and CB-3-specific Ts, it appeared that only nearly Th targets could be suppressed. Thus, CB-10-primed Th were not suppressed by either Ts; even CB-3-primed Ts did not suppress CB-2-specific Th, although CB-2-specific Ts were effective. Furthermore, analysis of the suppression pattern revealed a hierarchical use of potential epitopes on native GZ in triggering functional regulatory T cells. A dominant Th epitope near the amino terminus of GZ tops a hierarchy of potential Th, most of which are never engaged. The dominant determinant seems to exist on the peptide CB-2-3 (residues 3-187), and presumably is destroyed by its cleavage at Met 92; the Th cells that it induces are suppressible by each of the Ts-inducing peptides. In the GZ system, where the native antigen is quite large, the interactions between Th and Ts are highly circumscribed. This may be attributable to the topology of antigen fragments produced during processing; any relevant fragment must bear at least a Ts- and Th-reactive determinant to permit intercellular regulation. A final implication of these results is that, not only does the existence of a Th-inducing determinant depend on its being an appropriate distance from a B cell epitope, but the existence of Ts-inducing determinants likewise depends on the existence of a neighboring Th-B cell association.
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PMID:Repertoires of T cells directed against a large protein antigen, beta-galactosidase. II. Only certain T helper or T suppressor cells are relevant in particular regulatory interactions. 240 8

We describe a cDNA clone derived from mRNA of asexual blood-stages of the malaria parasite Plasmodium falciparum. This clone, designated Ag319, expresses a P.falciparum antigen fused to beta-galactosidase in Escherichia coli. Human antibodies from Papua New Guinea were affinity-purified by adsorption to extracts of Ag319 immobilized on CNBr-Sepharose. The antibodies reacted predominantly with P. falciparum polypeptides of Mr 220,000 and 160,000, and a number of ill-defined lower molecular weight species. Antibodies reacted in indirect immunofluorescence with all asexual blood-stages although the antigen appeared to be most abundance in the schizont. Surprizingly the antibodies also reacted with sporozoites. The amino acid sequence predicted from the complete nucleotide sequence of this clone is remarkable because 40% of the residues are Asn, and so the antigen has been termed the Asparagine-Rich Protein (ARP). Like other P. falciparum antigens, ARP contains tandemly repetitive sequences, based on the tetrapeptide Asn-Asn-Asn-Met and we have confirmed that these represent natural epitopes by reaction of the corresponding synthetic peptides with human antibodies. Surprisingly, ARP is also rich in Asn outside the tandem repeats.
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PMID:An asparagine-rich protein from blood stages of Plasmodium falciparum shares determinants with sporozoites. 242 Dec 57

We have examined transcriptional start sites responsible for expression of the transposase and transposition inhibitor proteins encoded by IS50R, and determined the likely translational start site of transposase. Amino-terminal analysis of a transposase-beta-galactosidase fusion protein gave the sequence Met-Ile-Thr-Ser-Ala, which corresponds to the predicted amino acid sequence starting at position 93 of IS50. S1 nuclease mapping of IS50 RNA produced in vivo indicated that three transcripts, T1, T2 and T3, start near this position. Only T1 starts upstream from the transposase amino terminus. T2 corresponds to an in-vitro transcript described previously. Analysis of the transcripts and proteins produced from deletion derivatives of an IS50-lacZ construct suggested that the three transcripts initiate at independent but overlapping promoters clustered near the end of IS50. This analysis confirmed that only T1 can encode transposase, and that T2 is largely responsible for expression of the inhibitor protein. The coding capacity of T3 was not determined. Finally, transcripts that originate outside of IS50 are prevented from expressing transposase because of a secondary structure that is present in these transcripts only.
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PMID:Transcriptional and translational initiation sites of IS50. Control of transposase and inhibitor expression. 243 19

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