Abstract
SC7A1 is a cosmid with an insert of chromosomal DNA from Streptomyces coelicolor A3(2). Its insertion into the chromosome of S. coelicolor strains caused a duplication of a segment of ca. 40 kb and delayed actinorhodin antibiotic production and sporulation, implying that SC7A1 carried a gene negatively affecting these processes. The subcloning of SC7A1 insert DNA resulted in the identification of the open reading frame SCO5582 as nsdA, a gene negatively affecting Streptomyces differentiation. The disruption of chromosomal nsdA caused the overproduction of spores and of three of four known S. coelicolor antibiotics of quite different chemical types. In at least one case (that of actinorhodin), this was correlated with premature expression of a pathway-specific regulatory gene (actII-orf4), implying that nsdA in the wild-type strain indirectly repressed the expression of the actinorhodin biosynthesis cluster. nsdA expression was up-regulated upon aerial mycelium initiation and was strongest in the aerial mycelium. NsdA has DUF921, a Streptomyces protein domain of unknown function and a conserved SXR site. A site-directed mutation (S458A) in this site in NsdA abolished its function. Blast searching showed that NsdA homologues are present in some Streptomyces genomes. Outside of streptomycetes, NsdA-like proteins have been found in several actinomycetes. The disruption of the nsdA-like gene SCO4114 had no obvious phenotypic effects on S. coelicolor. The nsdA orthologue SAV2652 in S. avermitilis could complement the S. coelicolor nsdA-null mutant phenotype.