Identification of the glucosamine kinase in the chitinolytic pathway of Thermococcus kodakarensis

Although the chitinolytic pathway of the hyperthermophilic archaeon Thermococcus kodakarensis is well-studied, the genome does not contain genes homologous to previously identified glucosamine kinase genes. As some ADP-dependent glucokinases in the order Thermococcales exhibit phosphorylation activities for both glucose and glucosamine in vitro , the homolog in T. kodakarensis , encoded by TK1110, was selected as a candidate for the missing glucosamine kinase gene. The purified, recombinant TK1110 enzyme exhibited phosphorylation activities for not only glucose but also glucosamine and N -acetylglucosamine. Kinetic analysis indicated that activity towards glucosamine was as significant as that towards glucose. In order to determine the physiological role of TK1110 in the chitinolytic pathway of T. kodakarensis , a gene disruption strain of TK1110 was constructed. When grown in chitin-containing medium, the TK1110 disruption resulted in almost complete impairment in chitin degradation, and a complete loss of chitin-dependent H 2 production. As H 2 production is tightly linked to cell growth in T. kodakarensis , the present results strongly suggest that TK1110 functions as the glucosamine kinase responsible for the chitin degradation in T. kodakarensis.