http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Sanghwa Park,Susumu Yoshizawa,Kazuhiro Kogure,Akira Yokota 한국미생물학회 2011 The journal of microbiology Vol.49 No.2
A gram-negative, motile, coccoid- and amorphous-shaped, non-pigmented chemoheterotrophic bacterium,designated strain PZ-5^T, was isolated from sea water of Sagami Bay in Japan and subjected to a polyphasic taxonomic study. Phylogenetic analysis based on 16S rRNA gene sequences revealed that the novel isolate could be affiliated with the class Gammaproteobacteria. Strain PZ-5^T showed below 93.9% similarity with validly published bacteria and demonstrated the highest sequence similarity to Dasania marina KOPRI 20902^T (93.9%). Strain PZ-5^T formed a monophyletic group with D. marina KOPRI 20902^T. The DNA G+C content of strain PZ-5^T was 49.8 mol%. The major isoprenoid quinone was Q-8 and predominant cellular fatty acids were C_(15:0) ISO 2OH (19%), C_(16:1) ω7c (17.4%), C_(17:1) ω8c (16.2%), C_(11:0) 3OH (7.5%), and C_(15:1)ω8c (6.5%). Based on evidence from a polyphasic taxonomical study, it was concluded that the strain should be classified as representing a new genus and species of the class Gammaproteobacteria, for which the name Oceanicoccus sagamiensis gen. nov., sp. nov., (type strain PZ-5^T =NBRC 107125^T =KCTC 23278^T) is proposed.
송재호,Ilnam Kang,Yochan Joung,Susumu Yoshizawa,Ryo Kaneko,Kenshiro Oshima,Masahira Hattori,Koji Hamasaki,Kazuhiro Kogure,Soochan Kim,Kangseok Lee,Jang-Cheon Cho 한국미생물학회 2019 The journal of microbiology Vol.57 No.5
Although culture-independent studies have shown the presence of Verrucomicrobia in the deep sea, verrucomicrobial strains from deep-sea environments have been rarely cultured and characterized. Recently, Rubritalea profundi SAORIC- 165T, a psychrophilic bacterium of the phylum Verrucomicrobia, was isolated from a depth of 2,000 m in the northwestern Pacific Ocean. In this study, the genome sequence of R. profundi SAORIC-165T, the first deep-sea verrucomicrobial isolate, is reported with description of the genome properties and comparison to surface-borne Rubritalea genomes. The draft genome consisted of four contigs with an entire size of 4,167,407 bp and G+C content of 47.5%. The SAORIC-165T genome was predicted to have 3,844 proteincoding genes and 45 non-coding RNA genes. The genome contained a repertoire of metabolic pathways, including the Embden-Meyerhof-Parnas pathway, pentose phosphate pathway, tricarboxylic acid cycle, assimilatory sulfate reduction, and biosynthesis of nicotinate/nicotinamide, pantothenate/ coenzyme A, folate, and lycopene. The comparative genomic analyses with two surface-derived Rubritalea genomes showed that the SAORIC-165T genome was enriched in genes involved in transposition of mobile elements, signal transduction, and carbohydrate metabolism, some of which might be related to bacterial enhancement of ecological fitness in the deep-sea environment. Amplicon sequencing of 16S rRNA genes from the water column revealed that R. profundi-related phylotypes were relatively abundant at 2,000 m and preferred a particle-associated life style in the deep sea. These findings suggest that R. profundi represents a genetically unique and ecologically relevant verrucomicrobial group well adapted to the deep-sea environment.