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)

The structural gene encoding DtxR, an iron-dependent diphtheria tox regulatory element, has recently been cloned and sequenced from the C7(-) strain of Corynebacterium diphtheriae (J. M. Boyd, M. Oza, and J. R. Murphy, Proc. Natl. Acad. Sci. USA 87:5972, 1990). We report here the molecular cloning, DNA sequence analysis, and characterization of DtxR from the PW8(-), 1030(-), and C7hm723 strains of C. diphtheriae. While the sequence of dtxR from PW8(-) is identical to that of the C7(-) allele, the sequence of dtxR from the 1030(-) strain is only 91.4% identical; however, the deduced amino acid sequence of DtxR from 1030(-) differs by only 6 of 678 amino acids. Moreover, DtxR from all three strains is shown to regulate expression of beta-galactosidase from a tox promoter-operator (toxPO)-lacZ transcriptional fusion. In contrast, the dtxR allele from the iron-insensitive tox constitutive mutant C7hm723 was found to have a single G----A transition, resulting in a substitution of Arg-47 to His and the loss of tox regulatory activity in recombinant Escherichia coli.
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PMID:DNA sequences and characterization of dtxR alleles from Corynebacterium diphtheriae PW8(-), 1030(-), and C7hm723(-). 173 17

Sequence analysis of the nuclear Drosophila serendipity delta Cys-2/His-2 finger protein indicated the presence of a short motif of positively charged amino acids, with homology to the SV40 large T and c-myc nuclear localisation signals. Using P-element mediated transformation we constructed transgenic Drosophila lines expressing beta-galactosidase fusion proteins, containing (or not) an 18 residue segment of sry delta including this basic, PTKKRVK, motif. Histochemical detection of fusion proteins on dissected tissues showed that this segment of sry delta can act autonomously to drive the beta-galactosidase in nuclei.
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PMID:A Drosophila nuclear localisation signal included in an 18 amino acid fragment from the serendipity delta zinc finger protein. 184 91

The fibronectin-related region of the 72 kDa type IV procollagenase has been expressed in E. coli as a beta-galactosidase fusion product. The fragment containing the three type II units of the protein was found to have affinity for denatured collagen, suggesting that these domains may be responsible for the collagen-affinity of type IV collagenase. We have also shown that segment Ala-Ala-His-Glu of type IV collagenase (residues 372-375), which is similar to a fibronectin-segment previously implicated in collagen-binding, is not essential for binding activity.
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PMID:Evidence for the involvement of type II domains in collagen binding by 72 kDa type IV procollagenase. 185 Nov 8

The protective protein was first discovered because of its deficiency in the metabolic storage disorder galactosialidosis. It associates with lysosomal beta-galactosidase and neuraminidase, toward which it exerts a protective function necessary for their stability and activity. Human and mouse protective proteins are homologous to yeast and plant serine carboxypeptidases. Here, we provide evidence that this protein has enzymatic activity similar to that of lysosomal cathepsin A: 1) overexpression of human and mouse protective proteins in COS-1 cells induces a 3-4-fold increase of cathepsin A-like activity; 2) this activity is reduced to approximately 1% in three galactosialidosis patients with different clinical phenotypes; 3) monospecific antibodies raised against human protective protein precipitate virtually all cathepsin A-like activity in normal human fibroblast extracts. Mutagenesis of the serine and histidine active site residues abolishes the enzymatic activity of the respective mutant protective proteins. These mutants, however, behave as the wild-type protein with regard to intracellular routing, processing, and secretion. In contrast, modification of the very conserved Cys60 residue interferes with the correct folding of the precursor polypeptide and, hence, its intracellular transport and processing. The secreted active site mutant precursors, endocytosed by galactosialidosis fibroblasts, restore beta-galactosidase and neuraminidase activities as effectively as wild-type protective protein. These findings indicate that the catalytic activity and protective function of the protective protein are distinct.
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PMID:Human lysosomal protective protein has cathepsin A-like activity distinct from its protective function. 190 82

The nucleotide sequence of the Clostridium thermocellum gene bglA, coding for the thermostable beta-glucosidase A, has been determined. The coding region of 1344 bp was identified by comparison with the N-terminal amino acid squence of recombinant beta-glucosidase A purified from Escherichia coli. The deduced amino acid sequence corresponds to a protein of 51,482 Da. The coding region is flanked by putative promoter and transcription terminator sequences. The protein is unrelated to beta-glucosidase B of C. thermocellum, but has a high level of similarity with other bacterial beta-glucosidases and phospho-beta-glucosidases. Similarity is also observed with the beta-galactosidase of the archaebacterium Sulfolobus solfataricus. Unexpectedly, it was found that human lactase-phlorizin hydrolase contains three copies of a sequence closely related to C. thermocellum beta-glucosidase A (up to 40% sequence identity). These diverse beta-glucosidases can therefore be grouped into an enzyme family (BGA) of common structural design. Sequence comparison by hydrophobic cluster analysis revealed that all BGA enzymes share a well conserved region which is homologous to the catalytic domain of the widely distributed cellulase family A. A distinctive feature of this domain is the sequence motif His-Asn-Glu-Pro in which the catalytic residues His and Glu are separated by 35-55 amino acid residues. The cellulase family A and the beta-glucosidase family BGA might thus be considered as members of a protein super-family comprising beta-glucanases and beta-glycosidases from all three primary kingdoms of living organisms.
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PMID:Structure of the beta-glucosidase gene bglA of Clostridium thermocellum. Sequence analysis reveals a superfamily of cellulases and beta-glycosidases including human lactase/phlorizin hydrolase. 190 24

Three different beta-galactosidase gene mutations--a 273Trp----Leu (mutation F) in both families, 482Arg----His (mutation G) in one family, and 509Trp----Cys (mutation H) in the other family--were identified in three patients with Morquio B disease who were from two unrelated families. Restriction-site analysis using StuI, Nsp(7524)I or RsaI confirmed these mutations. In human fibroblasts, mutation F expressed as much as 8% of the normal allele's enzyme activity, but the other mutations expressed no detectable enzyme activity. We conclude that the unique clinical manifestations are specifically associated with mutation F, a common two-base substitution, in this disease.
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PMID:Human beta-galactosidase gene mutations in morquio B disease. 192 92

Site-directed substitutions (Asp, Gly, Gln, His, and Lys) were made for Glu-461 of beta-galactosidase (Escherichia coli). All substitutions resulted in loss of most activity. Substrates and a substrate analog inhibitor were bound better by the Asp-substituted enzyme than by the normal enzyme, about the same for enzyme substituted with Gly, but only poorly when Gln, His, or Lys was substituted. This shows that Glu-461 is involved in substrate binding. Binding of the positively charged transition state analog 2-aminogalactose was very much reduced with Gly, Gln, His, and Lys, whereas the Asp-substituted enzyme bound this inhibitor even better than did the wild-type enzyme. Since Asp, like Glu, is negatively charged, this strongly supports the proposal that one role of Glu-461 is to electrostatically interact with a positively charged galactosyl transition state intermediate. The substitutions also affected the ability of the enzyme to bind L-ribose, a planar analog of D-galactose that strongly inhibits beta-galactosidase activity. This indicates that the binding of a planar "galactose-like" compound is somehow mediated through Glu-461. The data indicated that the presence of Glu-461 is highly important for the acid catalytic component of kappa 2 (glycosylic bond cleavage or "galactosylation"), and therefore Glu-461 must be involved in a concerted acid catalytic reaction, presumably by stabilizing a developing carbonium ion. The kappa 2 values with o- and p-nitrophenyl-beta-D-galactopyranoside as substrates varied more or less as did the K8 values, indicating that most of the glycolytic bond breaking activity found for the enzymes from the mutants with these substrates was probably a result of strain or other such effects. The kappa 3 values (hydrolysis or "degalactosylation") of the substituted enzymes were also low, indicating that Glu-461 is important for that part of the catalysis. The enzyme with His substituted for Glu-461 had the highest kappa 3 value. This is probably a result of the formation of a covalent bond between His and the galactosyl part of the substrate.
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PMID:Determination of the roles of Glu-461 in beta-galactosidase (Escherichia coli) using site-specific mutagenesis. 196 5

This present study reports the ability of a range of derivatives of L-histidine, histamine and imidazole to act as inhibitors of sweet-almond beta-glucosidase, yeast alpha-glucosidase and Escherichia coli beta-galactosidase. The addition of a hydrophobic group to the basic imidazole nucleus greatly enhances binding to both the alpha- and beta-glucosidases. L-Histidine (beta-naphthylamide (Ki 17 microM) is a potent competitive inhibitor of sweet-almond beta-glucosidase as is omega-N-acetylhistamine (K1 35 microM), which inhibits the sweet-almond beta-glucosidase at least 700 times more strongly than either yeast alpha-glucosidase or Escherichia coli beta-galactosidase, and suggests potential for the development of selective reversible beta-glucosidase inhibitors. A range of hydrophobic omega-N-acylhistamines were synthesized and shown to be among the most potent inhibitors of sweet-almond beta-glucosidase reported to date.
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PMID:Histidines, histamines and imidazoles as glycosidase inhibitors. 201 15

The Mg2+ concentrations required for half maximal activity, the dissociation constants, and the free energies of binding for Mg2+ bound to wild type beta-galactosidase and several site specific mutants are reported. The mutants have one of the following substitutions: Glu-461 substituted with Asp, Gln, Gly, His, or Lys; or Tyr-503 substituted with Phe, His or Cys. Substitutions for Tyr-503 had little effect on the affinity of the enzyme for Mg2+, implying that Tyr-503 is not involved in Mg2+ binding. Neutrally charged amino acids substituted for the negatively charged Glu-461 significantly decreased the affinity of the enzyme for Mg2+ and substitution of positively charged amino acids at this position further decreased the affinity. On the other hand, substitution by Asp (negative charge) at position 461 had no effect on the binding. Thus, the negatively charged side chain of Glu-461 is important for divalent cation binding to beta-galactosidase.
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PMID:Site specific mutants of beta-galactosidase show that Tyr-503 is unimportant in Mg2+ binding but that Glu-461 is very important and may be a ligand to Mg2+. 211 47

The first enzymes of the histidine (hut) and proline degradative pathways, histidase and proline oxidase, could not be induced in Bacillus subtilis cells growing in glucose minimal medium containing a mixture of 16 amino acids. Addition of the 16-amino-acid mixture to induced wild-type cells growing in citrate minimal medium repressed histidase synthesis 25- to 250-fold and proline oxidase synthesis 16-fold. A strain containing a transcriptional fusion of the hut promoter to the beta-galactosidase gene was isolated from a library of Tn917-lacZ transpositions. Examination of histidase and beta-galactosidase expression in extracts of a hut-lacZ fusion strain grown in various media showed that induction, catabolite repression, and amino acid repression of the hut operon were mediated at the level of transcription. This result was confirmed by measurement of the steady-state level of hut RNA in cells grown in various media. Since amino acid repression was not defective in B. subtilis mutants deficient in nitrogen regulation of glutamine synthetase and catabolite repression, amino acid repression appears to be mediated by a system that functions independently of these regulatory systems.
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PMID:Regulation of histidine and proline degradation enzymes by amino acid availability in Bacillus subtilis. 211

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