TY - DATA T1 - Strain-Level Diversity of Secondary Metabolism in Streptomyces albus PY - 2015/01/30 AU - Ryan F. Seipke UR - https://plos.figshare.com/articles/dataset/Strain_Level_Diversity_of_Secondary_Metabolism_in_Streptomyces_albus_/1298472 DO - 10.1371/journal.pone.0116457 L4 - https://ndownloader.figshare.com/files/1877034 L4 - https://ndownloader.figshare.com/files/1877035 KW - gene clusters encode KW - biosynthetic gene clusters harboured KW - gene clusters KW - species KW - quality DNA sequencing technology KW - Streptomyces albus Streptomyces spp KW - taxonomic type strains KW - gene cluster diversity KW - Streptomyces albus strains KW - 140 genome sequences N2 - Streptomyces spp. are robust producers of medicinally-, industrially- and agriculturally-important small molecules. Increased resistance to antibacterial agents and the lack of new antibiotics in the pipeline have led to a renaissance in natural product discovery. This endeavor has benefited from inexpensive high quality DNA sequencing technology, which has generated more than 140 genome sequences for taxonomic type strains and environmental Streptomyces spp. isolates. Many of the sequenced streptomycetes belong to the same species. For instance, Streptomyces albus has been isolated from diverse environmental niches and seven strains have been sequenced, consequently this species has been sequenced more than any other streptomycete, allowing valuable analyses of strain-level diversity in secondary metabolism. Bioinformatics analyses identified a total of 48 unique biosynthetic gene clusters harboured by Streptomyces albus strains. Eighteen of these gene clusters specify the core secondary metabolome of the species. Fourteen of the gene clusters are contained by one or more strain and are considered auxiliary, while 16 of the gene clusters encode the production of putative strain-specific secondary metabolites. Analysis of Streptomyces albus strains suggests that each strain of a Streptomyces species likely harbours at least one strain-specific biosynthetic gene cluster. Importantly, this implies that deep sequencing of a species will not exhaust gene cluster diversity and will continue to yield novelty. ER -