Enzymatic Verification and Comparative Analysis of Carrageenan Metabolism Pathways in Marine Bacterium Flavobacterium algicola
Chengcheng Jiang, Hong Jiang, Tianyu Zhang, Zewei Lu, Xiangzhao Mao
Abstract
Carrageenan is the main polysaccharide of red macroalgae and is composed of d-AHG and d-Gal. The carrageenan PUL (CarPUL)-encoded enzymes exist in many marine bacteria for decomposing carrageenan to provide self-growth. Here, the related enzymes in Flavobacterium algicola for metabolizing carrageenan were characterized for describing the catabolic pathways, notably, although the specific polysaccharide hydrolases existed that were like previous studies. A multifunctional G4S sulfatase also existed, which was devoted to the removal of G4S or G2S sulfate groups from three kinds of NCOSs. Additionally, the transformation of three types of carrageenans into two monomers, d-Gal and d-AHG, occurred outside the cell with no periplasmic reactions that existed in previously reported pathways. These results help to clarify the diversity of marine bacteria using macroalgae polysaccharides.