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)

Rarobacter faecitabidus protease I (RPI) is a serine protease exhibiting lytic activity toward living yeast cells. RPI is similar to elastase in its substrate specificity and has a lectin-like affinity for mannose. The gene encoding RPI was cloned to elucidate its structure and function. And its nucleotide sequence revealed that it contains an open reading frame encoding a 525-amino acid protein. Homology comparison indicated that pre-pro-RPI consists of three domains: (1) an NH2-terminal prepro domain not found in the mature form of RPI, (2) a protease domain homologous to the trypsin family of serine proteases, and (3) a COOH-terminal domain homologous to the COOH-terminal part of Oerskovia xanthineolytica beta-1,3-glucanase and the NH2-terminal part of the ricin B chain, a lectin isolated from the part of the ricin B chain, a lectin isolated from the castor bean. The RPI gene and its mutant were subsequently expressed in Escherichia coli under its beta-galactosidase promoter to investigate the function of the COOH-terminal domain. The mutant RPI, whose COOH-terminal domain was truncated by site-directed mutagenesis, lost both its mannose-binding and yeast-lytic activity, although the protease activity was not affected. These findings suggest that the COOH-terminal domain actually participates in the mannose-binding activity and is required for yeast-lytic activity.
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PMID:Molecular structure of Rarobacter faecitabidus protease I. A yeast-lytic serine protease having mannose-binding activity. 133 45

The endo-beta-1,3-1,4-glucanase enzyme of Bacillus subtilis C120, when synthesized in Escherichia coli, is located mainly in the cytoplasm, but enzyme activity is also detected in the periplasmic space and in the extracellular medium. The proportion recovered in the extracellular medium is not altered by changes in the levels of synthesis of the enzyme. Lysis of E. coli cells is ruled out as the cause of the secretion by the normal localization of beta-galactosidase, an intracellular protein. However, beta-lactamase, which is normally found in the periplasmic space, is detected in the extracellular medium of E. coli transformants containing beta-glucanase plasmids, suggesting that the presence of beta-glucanase in the cell alters the permeability of the outer membrane. The beta-glucanase proteins found in the extracellular medium, the periplasmic space and the cytoplasm have the same electrophoretic mobilities as the secreted enzyme of B. subtilis. Amino-terminal sequencing has shown that the beta-glucanase enzyme in the intracellular fraction of E. coli is processed at a site two amino acids distant from the processing site used in B. subtilis.
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PMID:Secretion and processing of the Bacillus subtilis endo-beta-1,3-1,4-glucanase in Escherichia coli. 314 87

We have identified a number of ecto-glycanases (glycosylhydrolases) associated with the capsule and/or the cell wall of Cryptococcus neoformans. The enzyme activities detected included alpha-mannosidase, alpha-, and beta -glucosidase, alpha-, and beta-galactosidase, beta-xylosidase, beta-glucuronidase, and endo-beta-1,3-glucanase. Small portions of the enzymes were also secreted into the growth medium. Cell-wall associated endo-beta-1,3-glucanases exhibited highest activity in the acidic range between pH 2.5 and 5.0. The products of laminarin hydrolysis by the enzymes located on the cell surface were glucose and beta-1,3-linked glucooligosaccharides. The same products were released from isolated cell walls incubated in the buffer. Endo-beta-1,3-glucanase activity extracted from the cell surfaces by mild sonication consisted of six isoforms separable by isoelectric focusing. In spite of the presence of the whole array of glycanase activities on the cell surfaces, capsular polysaccharides released from C. neoformans cells into the growth medium were practically metabolically stable. From the defined polysaccharides tested, only laminarin (beta-1,3-glucan) and to some extent also mixed-linkage beta-1,3/beta-1,4-glucan and/or 4-O-methyl-D-glucurono-D-xylan were able to support the yeast growth. The activities of majority of identified ecto-glycanases were low when the yeast was grown on glucose but were considerably elevated when the cells were grown on glycerol indicating that their synthesis is regulated by catabolite repression.
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PMID:Ecto-glycanases and metabolic stability of the capsule in Cryptococcus neoformans. 1713 12

The anaerobic fungus Anaeromyces mucronatus KF8 grown in batch culture on M10 medium with rumen fluid and microcrystalline cellulose as carbon source produced a broad range of enzymes requisite for degradation of plant structural and storage saccharides including cellulase, endoglucanase, xylanase, alpha-xylosidase, beta-xylosidase, alpha-glucosidase, beta-glucosidase, beta-galactosidase, mannosidase, cellobiohydrolase, amylase, laminarinase, pectinase and pectate lyase. These enzymes were detected in both the intra- and extracellular fractions, but production into the medium was prevalent with the exception of intracellular beta-xylosidase, chitinases, N-acetylglucosaminidase, and lipase. Xylanase activity was predominant among the polysaccharide hydrolases. Extracellular production of xylanase was stimulated by the presence of cellobiose and oat spelt xylan. Zymogram of xylanases of strain KF8 grown on different carbon sources revealed several isoforms of xylanases with approximate molar masses ranging from 26 to 130 kDa.
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PMID:Xylanases of anaerobic fungus Anaeromyces mucronatus. 2068 May 72