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- DOI: 10.1093/gbe/evq013
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The sequence of a 1.8-Mb bacterial linear plasmid reveals a rich evolutionary reservoir of secondary metabolic pathways
Medema, M H; Trefzer, A; Kovalchuk, A; Van Den Berg, M; Müller, U; Heijne, W; Wu, L; Alam, M T; Ronning, C M; Nierman, W C; Bovenberg, RAL; Breitling, R; Takano, E
Genome Biology and Evolution. 2010;2(1):212-224.
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Full-text held externally
- DOI: 10.1093/gbe/evq013
Abstract
Plasmids are mobile genetic elements that play a key role in the evolution of bacteria by mediating genome plasticity and lateral transfer of useful genetic information. Although originally considered to be exclusively circular, linear plasmids have also been identified in certain bacterial phyla, notably the actinomycetes. In some cases, linear plasmids engage with chromosomes in an intricate evolutionary interplay, facilitating the emergence of new genome configurations by transfer and recombination or plasmid integration. Genome sequencing of Streptomyces clavuligerus {ATCC} 27064, a Gram-positive soil bacterium known for its production ofadiverse arrayofbiotechnologically important secondary metabolites, revealedagiantlinear plasmidof1.8 Mb in length. This megaplasmid {(pSCL4)isone} ofthe largest plasmids ever identified and the largest linear plasmidto be sequenced. It contains more than 20\% of the putative protein-coding genes of the species, but none of these is predicted to be essential for primary metabolism. Instead, the plasmidis densely packed with anexceptionally large numberofgene clusters for the potential production of secondary metabolites, including a large number of putative antibiotics, such as staurosporine, moenomycin, ??-lactams, and enediynes. Interestingly, cross-regulation occurs between chromosomal and plasmid-encoded genes. Several factors suggest that the megaplasmid came into existence through recombination of a smaller plasmid with the arms of the main chromosome. Phylogenetic analysis indicates that heavy traffic of genetic information between Streptomyces plasmids and chromosomes may facilitate the rapid evolution of secondary metabolite repertoires in these bacteria. ?? The Author(s) 2010.