posted on 2019-05-24, 00:00authored byFranziska Münkel, Julia Bechtner, Viktor Eckel, Anja Fischer, Frauke Herbi, Frank Jakob, Daniel Wefers
The water kefir organism Leuconostoc citreum TMW
2.1194 forms highly branched dextrans with O3- and O4-bound 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.