Changes in linkage pattern of glucan products induced by substitution of Lys residues in the dextransucrase

Funane, Kazumi; Ishii, Tadashi; Ono, Hiroshi; Kobayashi, Mikihiko

Abstract: Dextransucrase S (DSRS) is the only active glucansucrase that has been found in Leuconostoc mesenteroides NRRL B-512F strain. Native DSRS produces mainly 6-linked glucopyranosyl residue (Glcp), while Escherichia coli recombinant DSRS was observed to produce a glucan consisting of 70% 6-linked Glcp and 15% 3,6-Glcp. Lys residues were introduced at the N-terminal end of the core domain by site-directed mutagenesis. In glucans produced by the one-point mutants T350K and S455K, the amount of 6-linked Glcp was increased to about 85% of the total glucan produced, more similar in structure to native B-512F dextran. The double mutant T350K/S455K produced adhesive, water-insoluble glucan with 77% 6-linked Glcp, 8% 3,6-linked Glcp and 4% 2,6-linked Glcp. The T350K/S455K mutant exhibited a 10-fold increase in glucosyltransferase activity over those of the parental DSRS-His6 and its T350K and S455K mutants. This is the first report demonstrating a change in the properties of a dextransucrase or a related glucosyltransferase through simple site-directed mutagenesis to create 2,6-linked Glcp.

GLUCANS; MUTAGENESIS; ESCHERICHIA coli; AMINO acids; POLYSACCHARIDES

FEBS Letters, 2005, Vol 579, Issue 21, p4739

0014-5793

Academic Journal

10.1016/j.febslet.2005.07.050