Abstract
Nitric oxide (NO) is a well-known signaling molecule in various organisms. Streptomyces undergoes complex morphological differentiation, similar to that of fungi. A recent study revealed a nitrogen oxide metabolic cycle that forms NO in Streptomyces coelicolor A3(2) M145. Further, endogenously produced NO serves as a signaling molecule. Here, we report that endogenously produced NO regulates cyclic 3',5'-diguanylate (c-di-GMP) levels and controls aerial mycelium formation through the c-di-GMP-binding transcriptional regulator BldD in S. coelicolor A3(2) M145. These observations provide important insights into the mechanisms regulating morphological differentiation. This is the first study to demonstrate a link between NO and c-di-GMP in S. coelicolor A3(2) M145. Morphological differentiation is closely linked to the initiation of secondary metabolism in actinomycetes. Thus, the NO signaling-based regulation of aerial mycelium formation has potential applications in the fermentation industry employing useful actinomycetes. IMPORTANCE Eukaryotic and prokaryotic cells utilize nitric oxide (NO) to regulate physiological functions. Besides its role as a producer of different bioactive substances, Streptomyces is suggested to be involved in mycelial development regulated by endogenously produced NO. However, the regulatory mechanisms are unclear. In this study, we proposed that NO signaling is involved in aerial mycelium formation in S. coelicolor A3(2) M145. NO serves as a signaling molecule for the regulation of intracellular cyclic 3',5'-diguanylate (c-di-GMP) levels, resulting in aerial mycelium formation controlled by a c-di-GMP receptor, BldD. As the abundant production of valuable secondary metabolites is closely related to the initiation of morphological differentiation in Streptomyces, NO may provide value for application in industrial fermentation by serving as a tool for regulating secondary metabolism.
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