Viktor P. L. Eckel scite author profile

The water kefir organism Leuconostoc citreum TMW 2.1194 forms highly branched dextrans with O3-and O4bound side chains. To obtain detailed information on the enzymatic synthesis of these polymers, the four glucansucrases encoded by Leuconostoc citreum TMW 2.1194 were cloned, heterologously expressed, and used for polysaccharide production. Molecular and macromolecular structure of the synthesized glucans were analyzed by methylation analysis, two-dimensional NMR spectroscopy, oligosaccharide analysis after partial hydrolysis, and asymmetric flow field-flow fractionation. It was demonstrated that two glucansucrases form insoluble glucans with variously branched dextran sections and varying portions of consecutive, 1,3-linked glucose units. In contrast, the other two glucansucrases synthesized O3-(Lc6255) and O4-branched (Lc1785) soluble dextrans. Analysis, isolation, and characterization of enzymatically liberated oligosaccharides showed that monomeric and elongated side chains are abundant in both polysaccharides. From the structures and size distributions it was concluded that Lc1785 is mainly responsible for synthesis of fermentatively produced soluble dextrans.

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Genomic and physiological insights into the lifestyle of Bifidobacterium species from water kefir

Eckel

Vogel

2020

Arch Microbiol

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Bifidobacterium tibiigranuli sp. nov. isolated from homemade water kefir

Eckel

Ziegler

Vogel

et al. 2020

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Two Bifidobacterium strains, TMW 2.2057T and TMW 2.1764 were isolated from two different homemade water kefirs from Germany. Both strains were oxidase- and catalase-negative and Gram-staining-positive. Cells were non-motile, irregular rods that were aerotolerant anaerobes. On basis of fructose 6-phosphate phosphoketolase activity, they were assigned to the family Bifidobacteriaceae. Comparative analysis of 16S rRNA and concatenated housekeeping genes (clpC, dnaB, dnaG, dnaJ, hsp60 and rpoB) demonstrated that both strains represented a member of the genus Bifidobacterium , with Bifidobacterium subtile DSM 20096T as the closest phylogenetic relative (98.35 % identity). Both strains can be distinguished using randomly amplified polymorphic DNA fingerprinting. Analysis of concatenated marker gene sequences as well as average nucleotide identity by blast (ANIb) and in silico DNA–DNA hybridization (isDDH) calculations of their genome sequences confirmed Bifidobacterium subtile DSM 20096T as the closest relative (87.91 and 35.80 % respectively). All phylogenetic analyses allow differentiation of strains TMW 2.2057T and TMW 2.1764 from all hitherto described species of the genus Bifidobacterium with validly published names. We therefore propose a novel species with the name Bifidobacterium tibiigranuli, for which TMW 2.2057T (=DSM 108414T=LMG 31086T) is the type strain.

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Viktor P. L. Eckel

In situ production and characterization of cloud forming dextrans in fruit-juices

Detailed Structural Characterization of Glucans Produced by Glucansucrases from Leuconostoc citreum TMW 2.1194

Genomic and physiological insights into the lifestyle of Bifidobacterium species from water kefir

Bifidobacterium tibiigranuli sp. nov. isolated from homemade water kefir

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