Genetic identification of factors for extracellular cellulose accumulation in the thermophilic cyanobacterium Thermosynechococcus vulcanus: proposal of a novel tripartite secretion system.

Cells of the thermophilic cyanobacterium Thermosynechococcus vulcanus strain RKN (NIES-2134) aggregate and produce extracellular cellulose under induced conditions of blue light and low temperature, and both aggregation and cellulose production require the cellulose synthase Tll0007 (XcsA) and photosensory diguanylate cyclases. However, overexpression of both the cellulose synthase and a constitutively active diguanylate cyclase was not sufficient to induce cellulose-mediated cell aggregation under normal growth conditions. Synteny analysis and gene knockout revealed that two putative genes, hlyD-like tlr0903 (xcsB) and endoglucanase-like tlr1902 (xcsC), are linked to tll0007, although they are located apart from tll0007 in the T. vulcanus genome. Gene knockdown revealed that tlr1605 (tolC) was essential for the cellulose-mediated cell aggregation. Low temperature induced marked upregulation of tlr0903, and overexpression of both tlr0903 (but not tlr1902) and diguanylate cyclase resulted in the strong cell aggregation and cellulose accumulation under normal conditions. Based on these and phylogenetic analysis, we propose that the cyanobacterial extracellular cellulose production is due to a novel variant of the bacterial tripartite secretion system.