Identification and Characterization of Four c-di-GMP-Metabolizing Enzymes from ATCC14672 Involved in the Regulation of Morphogenesis and Moenomycin A Biosynthesis.

Diguanylate cyclases (DGCs) and phosphodiesterases (PDEs) are essential enzymes deputed to maintain the intracellular homeostasis of the second messenger cyclic dimeric (3'→5') GMP (c-di-GMP). Recently, c-di-GMP has emerged as a crucial molecule for the streptomycetes life cycle, governing both morphogenesis and secondary metabolite production. Indeed, in ATCC14672 c-di-GMP was shown to be involved in the regulatory cascade of the peptidoglycan glycosytransferases inhibitor moenomycin A (MmA) biosynthesis. Here, we report the role of four c-di-GMP-metabolizing enzymes on MmA biosynthesis as well as morphological progression in . Functional characterization revealed that RmdA and CdgA are two active PDEs, while CdgE is a DGC. In vivo, overexpression of and led to precocious sporulation, whereas overexpression of and (encoding a predicted DGC) caused an arrest of morphological development. Furthermore, we demonstrated that individual deletion of , and enhances MmA accumulation, whereas deletion of has no impact on antibiotic production. Conversely, an individual deletion of each studied gene does not affect morphogenesis. Altogether, our results show that manipulation of c-di-GMP-metabolizing enzymes represent a useful approach to improving MmA production titers in .