http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Thrash, J. Cameron,Cho, Jang-Cheon,Vergin, Kevin L.,Morris, Robert M.,Giovannoni, Stephen J. American Society for Microbiology 2010 Journal of Bacteriology Vol.192 No.11
<B>ABSTRACT</B><P>Information on the genome content of deeply branching phyla with very few cultured members is invaluable for expanding understanding of microbial evolution. <I>Lentisphaera araneosa</I> HTCC2155<SUP>T</SUP> was isolated from the Oregon coast using dilution-to-extinction culturing. It is a marine heterotroph found in surface and mesopelagic waters in both the Pacific and Atlantic oceans and has the unusual property of producing a net-like matrix of secreted exopolysaccharide. Here we present the genome sequence of <I>L. araneosa</I> HTCC2155<SUP>T</SUP>, importantly, one of only two sequenced members of the phylum <I>Lentisphaerae</I>.</P>
Genome Sequence of the Marine Alphaproteobacterium HTCC2150, Assigned to the Roseobacter Clade
Kang, Ilnam,Oh, Hyun-Myung,Vergin, Kevin L.,Giovannoni, Stephen J.,Cho, Jang-Cheon American Society for Microbiology 2010 Journal of Bacteriology Vol.192 No.23
<B>ABSTRACT</B><P>Here we announce the genome sequence of a marine bacterium, HTCC2150, that was isolated off the Oregon coast using dilution-to-extinction culturing and that is affiliated with the <I>Roseobacter</I> clade. The 16S rRNA phylogeny showed that the strain was closely related to members of the RCA clade. The genome sequence suggests that strain HTCC2150 is an organoheterotroph carrying diverse metabolic potential, including a close relationship with phytoplankton.</P>
Genome Sequences of Oceanicola granulosus HTCC2516T and Oceanicola batsensis HTCC2597T
Thrash, J. Cameron,Cho, Jang-Cheon,Vergin, Kevin L.,Giovannoni, Stephen J. American Society for Microbiology 2010 Journal of Bacteriology Vol.192 No.13
<B>ABSTRACT</B><P>Genome sequences from the prolific <I>Roseobacter</I> clade in the <I>Alphaproteobacteria</I> are beginning to reveal the genetic basis for the diverse lifestyles of these organisms. Here we present the genome sequences of <I>Oceanicola granulosus</I> HTCC2516<SUP>T</SUP> and <I>O</I><I>ceanicola batsensis</I> HTCC2597<SUP>T</SUP>, two marine <I>Roseobacter</I> species isolated from the Sargasso Sea using dilution-to-extinction culturing, whose genomes encode for significant differences in metabolic potential.</P>
Thrash, J. Cameron,Cho, Jang-Cheon,Ferriera, Steve,Johnson, Justin,Vergin, Kevin L.,Giovannoni, Stephen J. American Society for Microbiology 2010 Journal of Bacteriology Vol.192 No.14
<B>ABSTRACT</B><P>Organisms in the OM60/NOR5 clade of the <I>Gammaproteobacteria</I> are ubiquitous in the world's oceans and can make up as much as 11% of bacterial cells in certain areas. Isolated from coastal Oregon water, <I>Gammaproteobacteria</I> HTCC2148 and HTCC2080 are two members of this important clade. Here we present the genome sequences of the OM60 <I>Gammaproteobacteria</I> HTCC2148 and HTCC2080.</P>
Murat Bektas,Aslı Akdeniz Kudubes,Ozlem Ugur,Canan Vergin,Bengü Demirag 한국간호과학회 2016 Asian Nursing Research Vol.10 No.2
Purpose: This study aimed to develop the Scale for Quality of Life in Pediatric Oncology Patients Aged 13-18: Adolescent Form and Parent Form. Methods: We used the child and parent information form, Visual Quality of Life Scale, and our own scale, the Scale for Quality of Life in Pediatric Oncology Patients Aged 13-18: Adolescent Form and Parent Form. We finalized the 35-item scale to determine the items, received opinions from 14 specialists on the scale, and pilot-tested the scale in 25 children and their parents. We used Pearson correlation analysis, Cronbach a coefficient, factor analysis and receiver operating characteristics analysis to analyze the data. Results: The total Cronbach a of the parent form was .97, the total factor load was .60-.97 and the total variance was 80.4%. The cutoff point of the parent formwas 85.50. The total Cronbach a of the adolescent form was .98, the total factor load was .62-.96, and the total variance explained was 83.4%. The cutoff point of the adolescent form was 75.50. As a result of the parent form factor analysis, we determined the Kaiser-Meyer-Olkin coefficient as .83, the Barlett test X² as 12,615.92; the factor coefficients of all items of the parent form ranged from .63 to .98. The factor coefficients of all items of the adolescent form ranged from .34 to .99. As a result of the adolescent form factor analysis, we determined the KMO as .79, and the Barlett test X² as 13,970.62. Conclusions: Conclusively, we found that the adolescent form and the parent formwere valid and reliable in assessing the children's quality of life.
The SAR92 Clade: an Abundant Coastal Clade of Culturable Marine Bacteria Possessing Proteorhodopsin
Stingl, Ulrich,Desiderio, Russell A.,Cho, Jang-Cheon,Vergin, Kevin L.,Giovannoni, Stephen J. American Society for Microbiology 2007 Applied and environmental microbiology Vol.73 No.7
<B>ABSTRACT</B><P>Proteorhodopsin (PR) is a protein that is abundant in marine bacterioplankton. PR is hypothesized to be a light-dependent proton pump, thus creating a proton gradient that can be used for energy production without electron transport. Currently, the only culture that has been reported to possesses PR is the highly abundant alphaproteobacterium “<I>Candidatus</I> Pelagibacter ubique” (SAR11 clade), but surprisingly, its growth in batch culture was not enhanced by light. Here, we present the first cultured gammaproteobacterium that possesses a PR gene. Genome sequencing and analysis of HTCC2207 showed that the PR gene is present as a lone transcriptional unit directly followed by an operon containing genes that are presumably involved in the synthesis of retinal, the chromophore of PR. Half-time decay times of different PR intermediates in native HTCC2207 cells ranged between 2 and 15 ms, and the absorbance maximum of PR was determined to be 528 nm. Proteorhodopsin was identified in three additional strains, using a specific PCR assay on other cultured members of the SAR92 clade. Phylogenetic analyses of the PR genes determined that they form a deeply rooting cluster not closely related to any PR genes recovered so far. Fluorescence in situ hybridization and RNA blots showed that the SAR92 clade reaches up to 10% of the total bacterial population in surface waters close to the Oregon coast and decreases over depth and distance from the shore. Although the growth of HTCC2207 is limited by the amount of available carbon that is present in the medium applied, these cultures do not grow at higher rates nor do they have higher growth yields when incubated under light.</P>
Genome Sequence of the Novel Marine Member of the Gammaproteobacteria Strain HTCC5015
Thrash, J. Cameron,Stingl, Ulrich,Cho, Jang-Cheon,Ferriera, Steve,Johnson, Justin,Vergin, Kevin L.,Giovannoni, Stephen J. American Society for Microbiology 2010 Journal of Bacteriology Vol.192 No.14
<B>ABSTRACT</B><P>HTCC5015 is a novel, highly divergent marine member of the <I>Gammaproteobacteria</I>, currently without a cultured representative with greater than 89% 16S rRNA gene identity to itself. The organism was isolated from water collected from Hydrostation S south of Bermuda using high-throughput dilution-to-extinction culturing techniques. Here we present the genome sequence of the unique <I>Gammaproteobacterium</I> strain HTCC5015.</P>