Abstract
Streptomyces are ubiquitous soil dwelling bacteria with large, linear genomes that are of special importance as a source of metabolites used in human and veterinary medicine, agronomy and industry. Conjugative elements (Actinomycetes Integrative and Conjugative Elements, AICEs) are the main drivers of Streptomyces Horizontal Gene Transfer. AICE transfer has long been known to be accompanied by mobilization of chromosomal DNA. However, the magnitude of DNA transfer, or the localization of acquired DNA across their linear chromosome, has remained undetermined. We here show that conjugative crossings in sympatric strains of Streptomyces result in the large-scale, genome-wide distributed replacement of up to one third of the recipient chromosome, a phenomenon for which we propose the name 'Streptomyces Chromosomal Transfer' (SCT). Such chromosome blending results in the acquisition, loss and hybridization of Specialized Metabolite Biosynthetic Gene Clusters, leading to a novel metabolic arsenal in exconjugant offspring. Harnessing conjugation-mediated SMBGC diversification holds great promise in the discovery of new bioactive compounds including antibiotics.
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