Occurrence of different fucoidanase genes in Flavobacterium sp. SW and enzyme characterization.

Fucoidans are hetero-sulfated polysaccharides that are widely distributed in brown algae and have been extensively studied for their various biological activities. The structure-function relationship of fucoidans remains unclear but can be studied using fucoidan-degrading enzymes (fucoidanases). Here, we isolated and identified Flavobacterium sp. SW as a microbial strain that can grow on fucoidan from Cladosiphon okamuranus as the sole carbon source. Genomic analysis of this strain revealed the presence of two genes, swfct and swfcn2, that are homologous to fct114 from Luteolibacter algae H18 and fcnA from Psychromonas sp. SW5A, respectively. The gene products were produced in Escherichia coli and showed significantly different specificities for fucoidan. Swfct catalyzed the degradation of deacetylated fucoidan from C. okamuranus, and Swfcn2 degraded fucoidans from Saccharina sculpera and Macrocystis pyrifera. The general properties of Swfct were examined by measuring the amounts of reducing ends produced by the enzymatic reaction, and the enzyme properties of Swfcn2 were evaluated by carbohydrate-polyacrylamide gel electrophoresis. Our findings indicate that one microbial strain can harbor genes encoding two different types of fucoidanases.

Identification and characterization of the fucoidanase gene from Luteolibacter algae H18.

Fucoidan is a hetero-sulfated polysaccharide found in brown algae and has received much attention as an ingredient in functional and health foods. The marine bacterial strain Luteolibacter algae H18 degrades fucoidan from Cladosiphon okamuranus. We purified the fucoidanase from a cell-free extract of L. algae H18, used it to decrease the molecular weight of deacetylated-fucoidan, determined the N-terminal amino acid sequence of the enzyme, and identified the gene involved in the degradation of fucoidan, fct114, in a draft genome sequence of strain H18. The gene product was heterologously produced in Escherichia coli and demonstrated to catalyze the degradation of deacetylated-fucoidan into lower molecular weight fragments. The mass of the gene product Fct114 is 112 kDa (1026 amino acid residues). The general properties of the enzyme were investigated by measuring the amount of reducing ends produced from deacetylated-fucoidan during the reaction. The enzyme was inactive toward fucoidans from other brown seaweed species or toward polysaccharides such as alginic acid, carrageenan, hyaluronic acid, and chondroitin sulfate. The amino acid sequence of Fct114 shared less than 25% identity and had no conserved motifs when compared with previously identified fucoidanases from other marine bacterial strains. These data suggest that Fct114 is a novel polysaccharide-degrading enzyme.