Rebets_2014_BMC.Genomics_15_885

Reference

Title : Complete genome sequence of producer of the glycopeptide antibiotic Aculeximycin Kutzneria albida DSM 43870T, a representative of minor genus of Pseudonocardiaceae - Rebets_2014_BMC.Genomics_15_885
Author(s) : Rebets Y , Tokovenko B , Lushchyk I , Ruckert C , Zaburannyi N , Bechthold A , Kalinowski J , Luzhetskyy A
Ref : BMC Genomics , 15 :885 , 2014
Abstract :

BACKGROUND: Kutzneria is a representative of a rarely observed genus of the family Pseudonocardiaceae. Kutzneria species were initially placed in the Streptosporangiaceae genus and later reconsidered to be an independent genus of the Pseudonocardiaceae. Kutzneria albida is one of the eight known members of the genus. This strain is a unique producer of the glycosylated polyole macrolide aculeximycin which is active against both bacteria and fungi. Kutzneria albida genome sequencing and analysis allow a deeper understanding of evolution of this genus of Pseudonocardiaceae, provide new insight in the phylogeny of the genus, as well as decipher the hidden secondary metabolic potential of these rare actinobacteria.
RESULTS: To explore the biosynthetic potential of Kutzneria albida to its full extent, the complete genome was sequenced. With a size of 9,874,926 bp, coding for 8,822 genes, it stands alongside other Pseudonocardiaceae with large circular genomes. Genome analysis revealed 46 gene clusters potentially encoding secondary metabolite biosynthesis pathways. Two large genomic islands were identified, containing regions most enriched with secondary metabolism gene clusters. Large parts of this secondary metabolism "clustome" are dedicated to siderophores production.
CONCLUSIONS: Kutzneria albida is the first species of the genus Kutzneria with a completely sequenced genome. Genome sequencing allowed identifying the gene cluster responsible for the biosynthesis of aculeximycin, one of the largest known oligosaccharide-macrolide antibiotics. Moreover, the genome revealed 45 additional putative secondary metabolite gene clusters, suggesting a huge biosynthetic potential, which makes Kutzneria albida a very rich source of natural products. Comparison of the Kutzneria albida genome to genomes of other actinobacteria clearly shows its close relations with Pseudonocardiaceae in line with the taxonomic position of the genus.

PubMedSearch : Rebets_2014_BMC.Genomics_15_885
PubMedID: 25301375
Gene_locus related to this paper: 9pseu-w5wb46 , 9pseu-w5w9h1 , 9pseu-w5w9d4 , 9pseu-w5w6n8 , 9pseu-w5w924 , 9pseu-w5wn13 , 9pseu-w5w4f4 , 9pseu-w5wnh6 , 9pseu-w5wfm1 , 9pseu-w5vzh2 , 9pseu-w5wbh7 , 9pseu-w5wdd1 , 9pseu-w5wtp1 , 9pseu-w5w662 , 9pseu-w5w1s2

Related information

Gene_locus 9pseu-w5wb46    9pseu-w5w9h1    9pseu-w5w9d4    9pseu-w5w6n8    9pseu-w5w924    9pseu-w5wn13    9pseu-w5w4f4    9pseu-w5wnh6    9pseu-w5wfm1    9pseu-w5vzh2    9pseu-w5wbh7    9pseu-w5wdd1    9pseu-w5wtp1    9pseu-w5w662    9pseu-w5w1s2

Citations formats

Rebets Y, Tokovenko B, Lushchyk I, Ruckert C, Zaburannyi N, Bechthold A, Kalinowski J, Luzhetskyy A (2014)
Complete genome sequence of producer of the glycopeptide antibiotic Aculeximycin Kutzneria albida DSM 43870T, a representative of minor genus of Pseudonocardiaceae
BMC Genomics 15 :885

Rebets Y, Tokovenko B, Lushchyk I, Ruckert C, Zaburannyi N, Bechthold A, Kalinowski J, Luzhetskyy A (2014)
BMC Genomics 15 :885