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Identification and comparison of two closely related dextransucrases released by water kefir borne Lactobacillus hordei TMW 1.1822 and Lactobacillus nagelii TMW 1.1827
Author(s) -
Julia Bechtner,
Daniel Wefers,
Jonas Schmid,
Rudi F. Vogel,
Frank Jakob
Publication year - 2019
Publication title -
microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.352
H-Index - 35
eISSN - 1465-2080
pISSN - 1350-0872
DOI - 10.1099/mic.0.000825
Subject(s) - dextransucrase , chemistry , lactobacillus , sucrose , biochemistry , lactobacillus reuteri , glycoside hydrolase , enzyme , dextran , hydrolysis , leuconostoc , bacteria , lactic acid , leuconostoc mesenteroides , fermentation , biology , genetics
Dextransucrases are extracellular enzymes, which are exclusively expressed by lactic acid bacteria (LAB) and produce α-1→6 linked glucose polymers from sucrose. In this study, two dextransucrases derived from water kefir borne Lactobacillus hordei TMW 1.1822 and Lactobacillus nagelii TMW 1.1827 were identified and comparatively investigated. Differences between both proteins mainly arise from an additional C-terminal glucan-binding domain and the presence of a signal motif in the L. nagelii TMW 1.1827 dextransucrase. L. hordei TMW 1.1822 released the enzyme only in the presence of its substrate sucrose in contrast to L. nagelii TMW 1.1827, while both strains functionally expressed the dextransucrases independently of sucrose. Both enzymes could be recovered as crude protein extracts in culture supernatants, as they are not covalently bound to the cell surface. This enabled the formation of dextrans at equal reaction conditions as well as their subsequent structural analysis in terms of molecular structure and molecular weight. The volumetric transglycosylation and hydrolysis activities were distinctly different for both enzymes, which produced O3 -branched dextrans with a comparable degree of branching. Moreover, identical oligosaccharides were obtained for both dextrans upon endo -dextranase digestion, while some differences in the polysaccharide fine structures could be identified from the varying portions of certain oligosaccharides. Dextrans synthesized by the dextransucrase released by L. nagelii exhibited an averaged molecular weight ( M w ) of 7.9×10 7 Da, while those produced by the dextransucrase released by L. hordei exhibited an M w of 6.1×10 7 Da. Moreover, glycosylation of glucansucrases by LAB was identified for the first time for the released dextransucrase of L. nagelii TMW 1.1827. Our study therefore reveals new molecular insights into how dextransucrases released by water kefir borne L. hordei TMW 1.1822 and L. nagelii TMW 1.1827 contribute to the complex formation of the traditional beverage water kefir.

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