Abstract
Here, we report the draft genome sequences of Bacteroides pyogenes JCM 6294T, JCM 6292, and JCM 10003, which were isolated from a cat and swine and were recently classified into a single species, B. pyogenes. Comparative analyses of these genomes revealed the diversification of B. pyogenes strains isolated from different animals.
GENOME ANNOUNCEMENT
Bacteroides pyogenes JCM 6294T and Bacteroides suis JCM 6292T were isolated from pigs (1), and Bacteroides tectus JCM 10003T was isolated from a cat (2). It was previously reported that the sequence similarities between B. pyogenes JCM 6294T and B. suis JCM 6292T are 100% for the hsp60 gene and 100% for the 16S rRNA gene (3). It was also found that the similarities of B. tectus JCM 10003T and B. pyogenes JCM 6294T or B. suis JCM 6292T are 99.6% for the hsp60 gene and 98.7% for the 16S rRNA gene. Consequently, B. suis and B. tectus were found to be heterotypic synonyms of B. pyogenes based on the DNA-DNA relatedness values (>70%) (3). Therefore, the genome sequences of the three strains are expected to provide new insights into this species concept.
Chromosomal DNAs were extracted from B. pyogenes JCM 6294T, JCM 6292, and JCM 10003 using a Genomic-tip 100/G (Qiagen). Whole-genome sequencing was performed using the Ion Torrent PGM systems. Low-quality and short reads were removed, and the remaining 542,315, 626,088, and 588,902 reads were assembled into 107, 112, and 95 contigs, respectively, using Newbler version 2.8 (454 Life Sciences). The draft genome sequences resulted in final assemblies of 3,404,843 bp (32.9× redundancy, a G+C content of 45.7%, and an N50 of 70,521 bp), 3,405,221 bp (38.1× redundancy, a G+C content of 45.7%, and an N50 of 63,669 bp), and 3,379,354 bp (36.8× redundancy, a G+C content of 46.2%, and an N50 of 81,559 bp) for B. pyogenes JCM 6294T, JCM 6292, and JCM 10003, respectively. The draft genomes were annotated by the RAST server (4) using Glimmer3 (5). The B. pyogenes JCM 6294T genome contains 3,379 protein-coding sequences (CDSs), a gene density of 86.8%, three rRNAs, and 61 tRNA sequences. JCM 6292 contains 3,340 CDSs, a gene density of 86.8%, three rRNAs, and 60 tRNA sequences. JCM 10003 contains 3,438 CDSs, a gene density of 86.1%, three rRNAs, and 55 tRNA sequences. According to the Genome Blast Distance Phylogeny (GBDP)-based DNA-DNA hybridization (DDH) prediction (6), the pair of B. pyogenes JCM 6294T and JCM 6292 genome sequences show a 100% DDH value calculated by the Genome-to-Genome Distance Calculator (GGDC) Web server (GGDC 2.0 [http://ggdc.dsmz.de/distcalc2.php]). On the other hand, the pairs of JCM 10003 and B. pyogenes JCM 6294T or JCM 6292 show a 64.7% DDH value, which is considered a subspecies. A BLAST dot plot analysis comparison in the SEED Viewer (http://www.theseed.org) indicated a high degree of genome rearrangements between JCM 10003 and the B. pyogenes JCM 6294T or JCM 6292 genome sequences. JCM 10003 contains large numbers of conjugative transposon proteins. This might have contributed to the rearrangement of the genomic structure and led to the diversification of B. pyogenes. Further genome analysis will improve our understanding of this species.
Nucleotide sequence accession numbers.
The draft genome sequences of B. pyogenes JCM 6294T, JCM 6292, and JCM 10003 have been deposited in DDBJ/EMBL/GenBank under the accession no. BAIR00000000, BAIQ00000000, and BAIU00000000, respectively.
ACKNOWLEDGMENTS
This work was supported by the Genome Information Upgrading Program of the National BioResource Project from the Ministry of Education, Culture, Sports, Science and Technology of Japan. This work was also supported by a Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science to M.S. (no. 23580126).
We thank Hiromi Kuroyanagi (the University of Tokyo) for technical support.
Footnotes
Citation Sakamoto M, Oshima K, Suda W, Kitamura K, Iida T, Hattori M, Ohkuma M. 2014. Draft genome sequences of three strains of Bacteroides pyogenes isolated from a cat and swine. Genome Announc. 2(1):e01242-13. doi:10.1128/genomeA.01242-13.
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