Expression of the melC operon in several Streptomyces strains is positively regulated by AdpA, an AraC family transcriptional regulator involved in morphological development in Streptomyces coelicolor.

Dark brown haloes of melanin around colonies are an easily visualized phenotype displayed by many Streptomyces strains harboring plasmid pIJ702 carrying the melC operon of Streptomyces antibioticus IMRU3270. Spontaneous melanin-negative mutants of pIJ702 occur with a frequency of ca. 1%, and often mutation occurs in the melC operon, which removes the BglII site as part of an inverted repeat. Other melanin-negative mutations seem to occur spontaneously in Streptomyces lividans, resulting in white colonies from which intact, melanin-producing pIJ702 can be isolated by introduction into a new host. S. lividans ZX66 was found to be such a mutant and to have a secondary mutation influencing expression of the melC operon on the chromosome. A 3.3-kb DNA fragment was isolated from its progenitor strain, JT46, and a gene able to restore melC operon expression was found to encode a member of an AraC family of transcriptional regulators, which was equivalent to AdpA(c) in Streptomyces coelicolor and therefore was designated AdpA(l). Lack of melC operon expression was correlated with a single A-to-C transversion, which altered a single key amino acid residue from Thr to Pro. The transcription of the melC operon was found to be greatly reduced in the adpA mutant background. The counterpart gene (adpA(a)) in the S. antibioticus strain in which the melC operon carried on pIJ702 originated was also isolated and was found to have an identical regulatory role. Thus, we concluded that the melC operon is under general direct positive control by AdpA family proteins, perhaps at the transcriptional level and certainly at the translational level via bldA, in Streptomyces.