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Streptomyces agglomeratus 5-1-8 with strong anti methicillin-resistant Staphylococcus aureus(MRSA)ability,isolated from the frozen soil of Tibet in China,has a strong ability to kill the multi-drugs-resistant MRSA.To identify the second-ary metabolism ability of this strain,we describe here the phenotypic characteristics of this strain,along with its high-quality draft genome sequence,its annotation,and analysis.The 7.1M draft genome encodes 6,284 putative open reading frames(ORFs),of which 4,416 ORFs were assigned with clusters of orthologous genes(COG)categories.Also,65 t RNA genes and 24 r RNA operons were identified.The genome contains 12 gene clusters involved in antibiotics production and 1 gene cluster involved in anticancer-compounds production;4 gene clusters belong to polyketides and nonribosomal peptides,1gene cluster belong to the butyrolactone,4 gene clusters belong to the bacteriocin or lantipeptide,and 3 gene clusters belong to the others.This genome-sequence data will facilitate efforts to probe the potential of new antibiotics to kill multidrugs-resistant MRSA.
Streptomyces agglomeratus 5-1-8 with strong anti methicillin-resistant Staphylococcus aureus (MRSA) ability, isolated from the frozen soil of Tibet in China, has a strong ability to kill the multi-drugs-resistant MRSA.To identify the second-ary metabolism ability of this strain, we describe here the phenotypic characteristics of this strain, along with its high-quality draft genome sequence, its annotation, and analysis. 7.1M draft genome encodes 6,284 putative open reading frames (ORFs), of which 4,416 ORFs were assigned with clusters of orthologous genes (COG) categories. Also, 65 t RNA genes and 24 r RNA operons were identified. The genome contains 12 gene clusters involved in antibiotic production and 1 gene cluster involved in anticancer-compounds production; 4 gene clusters belong to polyketides and nonribosomal peptides, 1 gene cluster belong to the butyrolactone, 4 gene clusters belong to the bacteriocin or lantipeptide, and 3 gene clusters belong to the others. this genome-sequence data will f acilitate efforts to probe the potential of new antibiotics to kill multidrugs-resistant MRSA.