Cellulophaga algicola alginate lyase inhibits biofilm formation of a clinical Pseudomonas aeruginosa strain MCC 2081.

Alginate lyases are potential agents for disrupting alginate-rich Pseudomonas biofilms in the infected lungs of cystic fibrosis patients but there is as yet no clinically approved alginate lyase that can be used as a therapeutic. We report here the endolytic alginate lyase activity of a recombinant Cellulophaga algicola alginate lyase domain (CaAly) encoded by a gene that also codes for an N-terminal carbohydrate-binding module, CBM6, and a central F-type lectin domain (CaFLD). CaAly degraded both polyM and polyG alginates with optimal temperature and pH of 37°C and pH 7, respectively, with greater preference for polyG.

Effect of naturally occurring variations of the F-type lectin sequence motif on glycan binding: studies on F-type lectin domains with typical and atypical sequence motifs.

The typical F-type lectin domain (FLD) has an L-fucose-binding motif [HX(26)RXDX(4)R/K] with conserved basic residues that mediate hydrogen bonding with alpha-L-fucose. About one-third of the nonredundant FLD sequences in the publicly available databases are "atypical"; they have motifs with substitutions of these critical residues and/or variations in motif length. We addressed the question if atypical FLDs with substitutions of the critical residues retain lectin activity by performing site-directed mutagenesis and assessing the glycan-binding functions of typical and atypical FLDs.

Gleaning evolutionary insights from the genome sequence of a probiotic yeast Saccharomyces boulardii.

Background: The yeast Saccharomyces boulardii is used worldwide as a probiotic to alleviate the effects of several gastrointestinal diseases and control antibiotics-associated diarrhea. While many studies report the probiotic effects of S. boulardii, no genome information for this yeast is currently available in the public domain.