Publications (2)5.47 Total impact
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Article: Some structural features of an insoluble alpha-D-glucan from a mutant strain of Leuconostoc mesenteroides NRRL B-1355.
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ABSTRACT: Leuconostoc mesenteroides strain NRRL B-1355 produces two soluble extracellular alpha-D-glucans from sucrose: alternan and dextran. An unusual mutant strain derived from NRRL B-1355 has recently been isolated which produces practically no soluble polysaccharide, but significant amounts of an insoluble D-glucan. Methylation analysis shows it contains linear (1-->3) and (1-->6) linkages as well as (1-->2) and (1-->3) branch linkages. The insoluble glucan was partially digestible by endodextranase, giving rise to a series of oligosaccharides, a high-molecular weight soluble fraction and an insoluble residue. Treatment of the soluble dextranase-limit fraction with an alpha(1-->2) debranching enzyme led to further dextranase susceptibility. Methylation, FTIR and NMR analyses of the dextranase-treated fractions indicate a non-uniform structure with domains bearing similarities to L. mesenteroides strain NRRL B-1299 dextran and to insoluble streptococcal D-glucans.Journal of Industrial Microbiology and Biotechnology 08/1999; 23(1):656-60. · 2.73 Impact Factor -
Article: A mutant strain of Leuconostoc mesenteroides B-1355 producing a glucosyltransferase synthesizing α(1→2) glucosidic linkages
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ABSTRACT: A mutant strain (R1510) of Leuconostoc mesenteroides B-1355 was isolated which synthesized primarily an insoluble polysaccharide and little soluble polysaccharide when grown in sucrose-containing medium. Glucose or sucrose cultures of this strain produced a single intense band of GTF-1 activity of 240 kDa on SDS gels, and a number of faint, smaller bands. Oligosaccharides synthesized by strain R1510 from methyl-α-D-glucoside and sucrose included a trisaccharide whose structure contained an α(1→2) glucosidic linkage. This type of linkage has not been seen before in any products from strain B-1355 or its mutant derivatives. The structure of the purified trisaccharide was confirmed by 13C-nuclear magnetic resonance. The insoluble polysaccharide also contained α(1→2) branch linkages, as determined by methylation analysis, showing that synthesis of the linkages was not peculiar to methyl-α-D-glucoside. GTF-1, which had been excised with a razor blade from an SDS gel of a culture of the parent strain B-1355, produced the same trisaccharides as strain R1510, showing that GTF-1 from the wild-type strain was the same as GTF-1 from strain R1510. Mutant strains resembling strain R1510, but producing a single intense band of alternansucrase (200 kDa) instead of GTF-1 were also isolated, suggesting that mutations may be generated which diminished the activities for any two of the three GTFs of strain B1355 relative to the third. Strain R1554 produced a soluble form of alternansucrase, while strain R1588 produced a cell-associated form. The mechanism(s) by which specific GTFs become associated with the cells of L. mesenteroides was not explored.Journal of Industrial Microbiology and Biotechnology 01/1998; 21(1):37-45. · 2.73 Impact Factor
