Analysis of Two Additional Signaling Molecules in Streptomyces coelicolor and the Development of a Butyrolactone-Specific Reporter System

Abstract

gamma-Butyrolactone bacterial hormones regulate antibiotic production and morphological differentiation in Streptomyces species. One gamma-butyrolactone, SCB1, has been previously characterized in Streptomyces coelicolor. Here we report the characterization of two additional gamma-butyrolactones, named SCB2 (2-[1'-hydroxyoctyl]-3-hydroxymethylbutanolide) and SCB3 (2-[1'-hydroxy-6'-methyloctyl]-3-hydroxymethylbutanolide), possessing an antibiotic stimulatory activity. To elucidate the specificity determinants of these ligands for the receptor protein, ScbR, 30 chemically synthesized gamma-butyrolactone analogs were tested by utilizing the release of ScbR from DNA upon binding to a gamma-butyrolactone, which can be detected by kanamycin resistance. The butyrolactone detection method developed here revealed that ScbR shows preference toward a ligand possessing a 7-10 carbon C-2 side chain, a C-1'-beta-hydroxyl group, and a C-6'-methyl branch that coincides with SCB3. Moreover, this method was successfully used to screen for potential gamma-butyrolactone producers from commercial-antibiotic-producing Streptomyces.