B. A. Cantwell scite author profile

The sequence of a 1409 base pair restriction fragment containing the B. subtilis gene for (1-3), (1-4)-beta-D-glucan endoglucanase is reported. The gene is encoded in a 726 base pair segment. The deduced amino acid sequence of the protein has a hydrophobic signal peptide at the NH2-terminus similar to those found in five other secreted proteins from Bacillus. The gene is preceded by a sequence resembling promoters for the vegetative B. subtilis RNA polymerase. This is followed by a sequence resembling a B. subtilis ribosome binding site nine nucleotides before the first codon of the gene. Two sequences, one before and one after the gene, can be arranged in secondary structures similar to transcriptional terminators. There is also a short open reading frame coding for a hydrophobic protein on the minus strand just upstream from the beta-glucanase gene. A possible role for this gene in the control of expression of beta-glucanase is suggested.

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Molecular cloning and expression of a Bacillus subtilis β-glucanase gene in Escherichia coli

Cantwell

McConnell

1983

Gene

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Primary structure and processing of the Candida tsukubaensisα‐glucosidase

Kinsella¹,

Hogan

Larkin³

et al. 1991

European Journal of Biochemistry

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The nucleotide sequence of a 4.39‐kb DNA fragment encoding the α‐glucosidase gene of Candida tsukubaensis is reported. The cloned gene contains a major open reading frame (ORF 1) which encodes the α‐glucosidase as a single precursor polypeptide of 1070 amino acids with a predicted molecular mass of 119 kDa. N‐terminal amino acid sequence analysis of the individual subunits of the purified enzyme, expressed in the recombinant host Saccharomyces cerevisiae, confirmed that the α‐glucosidase precursor is proteolytically processed by removal of an N‐terminal signal peptide to yield the two peptide subunits 1 and 2, of molecular masses 63–65 kDa and 50–52 kDa, respectively. Both subunits are secreted by the heterologous host S. cerevisiae in a glycosylated form. Coincident with its efficient expresion in the heterologus host, the C. tsukubaensisα‐glucosidase gene contains many of the canonical features of highly expressed S. cerevisiae genes. There is considerable sequence similarity between C. tsukubaensisα‐glucosidase, the rabbit sucrase‐isomaltase complex (proSI) and human lysosomal acid α‐glucosidase. The cloned DNA fragment from C. tsukubaensis contains a second open reading frame (ORF 2) which has the capacity to encode a polypeptide of 170 amino acids. The function and identity of the polypeptide encoded by ORF 2 is not known.

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Comparison of expression of the endo-?-1,3-1,4-glucanase gene from Bacillus subtilis in Saccharomyces cerevisiae from the CYC1 and ADH1 promoters

Cantwell¹,

Brazil

Murphy

et al. 1986

Curr Genet

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The endo-beta-1,3-1,4-glucanase gene from B. subtilis was placed under yeast promoter control in a number of different yeast expression vectors. The hybrid plasmids were transformed into S. cerevisiae where they directed the synthesis of varying amounts of active enzyme. The presence of B. subtilis DNA sequences 5' to the initiation codon for the B. subtilis beta-glucanase gene reduced expression of the gene in yeast. A 1,000-fold increase in the yield of beta-glucanase was obtained using the ADH1 promoter compared with the CYC1 promoter.

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Molecular cloning and characterization of a Candida tsukubaensis ?-glucosidase gene in the yeast Saccharomyces cerevisiae

Kinsella¹,

Larkin²,

Bolton³

et al. 1991

Curr Genet

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The molecular cloning of an alpha-glucosidase gene isolated from a Candida tsukubaensis (CBS 6389) genomic library in Saccharomyces cervisiae is reported. The cloned gene is contained within a 6.2 kb Sau3A DNA fragment and directs the synthesis and secretion of an amylolytic enzyme into the extracellular medium of the recombinant host, S. cerevisiae. The cloned enzyme was found to have an unusually broad substrate specificity and is capable of hydrolysing alpha-1,2, alpha-1,3, alpha-1,4 and alpha-1,6 linked, as well as aryl and alkyl, D-glucosides. On the basis of its substrate specificity profile, the cloned enzyme was classified as an alpha-glucosidase (E.C. 3.2.1.20). It has a pH optimum in the range 4.2-4.6, a temperature optimum of 58 degrees C and is readily inactivated at pasteurization temperature (60 degrees C). Southern blot analysis failed to reveal any homology between the cloned gene and genomic DNA isolated from other well characterized amylolytic yeasts. A rapid plate-assay, based on the utilization of a chromogenic substrate X-alpha-D-glucoside to detect the expression of the cloned alpha-glucosidase in S. cerevisiae transformants, was developed.

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B. A. Cantwell

The DNA sequence of the gene and genetic control sites for the excretedB. subtilis enzymeβglucanase

Molecular cloning and expression of a Bacillus subtilis β-glucanase gene in Escherichia coli

Primary structure and processing of the Candida tsukubaensisα‐glucosidase

Comparison of expression of the endo-?-1,3-1,4-glucanase gene from Bacillus subtilis in Saccharomyces cerevisiae from the CYC1 and ADH1 promoters

Molecular cloning and characterization of a Candida tsukubaensis ?-glucosidase gene in the yeast Saccharomyces cerevisiae

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