Chia-Lin Wei
Joint Genome Institute
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Featured researches published by Chia-Lin Wei.
Standards in Genomic Sciences | 2013
Thomas Kruse; Julien Maillard; Lynne Goodwin; Tanja Woyke; Hazuki Teshima; David Bruce; Chris Detter; Roxanne Tapia; Cliff Han; Marcel Huntemann; Chia-Lin Wei; James Han; Amy Chen; Nikos C. Kyrpides; Ernest Szeto; Victor Markowitz; Natalia Ivanova; Ioanna Pagani; Amrita Pati; Sam Pitluck; Matt Nolan; Christof Holliger; Hauke Smidt
Dehalobacter restrictus strain PER-K23 (DSM 9455) is the type strain of the species Dehalobacter restrictus. D. restrictus strain PER-K23 grows by organohalide respiration, coupling the oxidation of H2 to the reductive dechlorination of tetra- or trichloroethene. Growth has not been observed with any other electron donor or acceptor, nor has fermentative growth been shown. Here we introduce the first full genome of a pure culture within the genus Dehalobacter. The 2,943,336 bp long genome contains 2,826 protein coding and 82 RNA genes, including 5 16S rRNA genes. Interestingly, the genome contains 25 predicted reductive dehalogenase genes, the majority of which appear to be full length. The reductive dehalogenase genes are mainly located in two clusters, suggesting a much larger potential for organohalide respiration than previously anticipated.
Journal of Bacteriology | 2012
Michael Pester; Evelyne Brambilla; Didier Alazard; Thomas Rattei; Thomas Weinmaier; James Han; Susan Lucas; Alla Lapidus; Jan-Fang Cheng; Lynne Goodwin; Sam Pitluck; Lin Peters; Galina Ovchinnikova; Hazuki Teshima; John C. Detter; Cliff Han; Roxanne Tapia; Miriam Land; Loren Hauser; Nikos C. Kyrpides; Natalia Ivanova; Ioanna Pagani; Marcel Huntmann; Chia-Lin Wei; Karen W. Davenport; Hajnalka E. Daligault; Patrick Chain; Amy Chen; Konstantinos Mavromatis; Victor Markowitz
Desulfosporosinus species are sulfate-reducing bacteria belonging to the Firmicutes. Their genomes will give insights into the genetic repertoire and evolution of sulfate reducers typically thriving in terrestrial environments and able to degrade toluene (Desulfosporosinus youngiae), to reduce Fe(III) (Desulfosporosinus meridiei, Desulfosporosinus orientis), and to grow under acidic conditions (Desulfosporosinus acidiphilus).
Genome Announcements | 2013
Senthil K. Murugapiran; Marcel Huntemann; Chia-Lin Wei; James Han; John C. Detter; Cliff Han; Tracy Erkkila; Hazuki Teshima; Amy Chen; Nikos C. Kyrpides; Konstantinos Mavrommatis; Victor Markowitz; Ernest Szeto; Natalia Ivanova; Ioanna Pagani; Jenny Lam; Austin I. McDonald; Jeremy A. Dodsworth; Amrita Pati; Lynne Goodwin; Lin Peters; Sam Pitluck; Tanja Woyke; Brian P. Hedlund
ABSTRACT The strains Thermus oshimai JL-2 and Thermus thermophilus JL-18 each have a circular chromosome, 2.07 Mb and 1.9 Mb in size, respectively, and each has two plasmids ranging from 0.27 Mb to 57.2 kb. The megaplasmid of each strain contains a gene cluster for the reduction of nitrate to nitrous oxide, consistent with their incomplete denitrification phenotypes.
Standards in Genomic Sciences | 2013
Senthil K. Murugapiran; Marcel Huntemann; Chia-Lin Wei; James Han; John C. Detter; Cliff Han; Tracy Erkkila; Hazuki Teshima; Amy Chen; Nikos C. Kyrpides; Konstantinos Mavrommatis; Victor Markowitz; Ernest Szeto; Natalia Ivanova; Ioanna Pagani; Amrita Pati; Lynne Goodwin; Lin Peters; Sam Pitluck; Jenny Lam; Austin I. McDonald; Jeremy A. Dodsworth; T. Woyke; Brian P. Hedlund
The complete genomes of Thermus oshimai JL-2 and T. thermophilus JL-18 each consist of a circular chromosome, 2.07 Mb and 1.9 Mb, respectively, and two plasmids ranging from 0.27 Mb to 57.2 kb. Comparison of the T. thermophilus JL-18 chromosome with those from other strains of T. thermophilus revealed a high degree of synteny, whereas the megaplasmids from the same strains were highly plastic. The T. oshimai JL-2 chromosome and megaplasmids shared little or no synteny with other sequenced Thermus strains. Phylogenomic analyses using a concatenated set of conserved proteins confirmed the phylogenetic and taxonomic assignments based on 16S rRNA phylogenetics. Both chromosomes encode a complete glycolysis, tricarboxylic acid (TCA) cycle, and pentose phosphate pathway plus glucosidases, glycosidases, proteases, and peptidases, highlighting highly versatile heterotrophic capabilities. Megaplasmids of both strains contained a gene cluster encoding enzymes predicted to catalyze the sequential reduction of nitrate to nitrous oxide; however, the nitrous oxide reductase required for the terminal step in denitrification was absent, consistent with their incomplete denitrification phenotypes. A sox gene cluster was identified in both chromosomes, suggesting a mode of chemolithotrophy. In addition, nrf and psr gene clusters in T. oshmai JL-2 suggest respiratory nitrite ammonification and polysulfide reduction as possible modes of anaerobic respiration.
Genome Announcements | 2013
Jennifer R. Davis; Lynne Goodwin; Hazuki Teshima; Chris Detter; Roxanne Tapia; Cliff Han; Marcel Huntemann; Chia-Lin Wei; James Han; Amy Chen; Nikos C. Kyrpides; Kostas Mavrommatis; Ernest Szeto; Victor Markowitz; Natalia Ivanova; Natalia Mikhailova; Galina Ovchinnikova; Ioanna Pagani; Amrita Pati; Tanja Woyke; Sam Pitluck; Lin Peters; Matt Nolan; Miriam Land; Jason K. Sello
ABSTRACT We announce the availability of the genome sequence of Streptomyces viridosporus strain T7A ATCC 39115, a plant biomass-degrading actinomycete. This bacterium is of special interest because of its capacity to degrade lignin, an underutilized component of plants in the context of bioenergy. It has a full complement of genes for plant biomass catabolism.
Standards in Genomic Sciences | 2013
Wayne Reeve; Rui Tian; Sofie E. De Meyer; Vanessa Melino; Jason Terpolilli; Julie Ardley; Ravi Tiwari; John Howieson; R.J. Yates; Graham O’Hara; Mohamed Ninawi; Hazuki Teshima; David Bruce; Chris Detter; Roxanne Tapia; Cliff Han; Chia-Lin Wei; Marcel Huntemann; James Han; I-Min A. Chen; Konstantinos Mavromatis; Victor Markowitz; Natalia Ivanova; Galina Ovchinnikova; Ioanna Pagani; Amrita Pati; Lynne Goodwin; Sam Pitluck; Tanja Woyke; Nikos C. Kyrpides
Rhizobium leguminosarum bv. trifolii strain TA1 is an aerobic, motile, Gram-negative, non-spore-forming rod that is an effective nitrogen fixing microsymbiont on the perennial clovers originating from Europe and the Mediterranean basin. TA1 however is ineffective with many annual and perennial clovers originating from Africa and America. Here we describe the features of R. leguminosarum bv. trifolii strain TA1, together with genome sequence information and annotation. The 8,618,824 bp high-quality-draft genome is arranged in a 6 scaffold of 32 contigs, contains 8,493 protein-coding genes and 83 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.
Standards in Genomic Sciences | 2013
Wayne Reeve; Julie Ardley; Rui Tian; Sofie E. De Meyer; Jason Terpolilli; Vanessa Melino; Ravi Tiwari; R.J. Yates; Graham O’Hara; John Howieson; Mohamed Ninawi; Xiaojing Zhang; David Bruce; Chris Detter; Roxanne Tapia; Cliff Han; Chia-Lin Wei; Marcel Huntemann; James Han; I-Min A. Chen; Konstantinos Mavromatis; Victor Markowitz; Ernest Szeto; Natalia Ivanova; Ioanna Pagani; Amrita Pati; Lynne Goodwin; Tanja Woyke; Nikos C. Kyrpides
Microvirga lotononidis is a recently described species of root-nodule bacteria that is an effective nitrogen- (N2) fixing microsymbiont of the symbiotically specific African legume Listia angolensis (Welw. ex Bak.) B.-E. van Wyk & Boatwr. M. lotononidis possesses several properties that are unusual in root-nodule bacteria, including pigmentation and the ability to grow at temperatures of up to 45°C. Strain WSM3557T is an aerobic, motile, Gram-negative, non-spore-forming rod isolated from a L. angolensis root nodule collected in Chipata, Zambia in 1963. This is the first report of a complete genome sequence for the genus Microvirga. Here we describe the features of Microvirga lotononidis strain WSM3557T, together with genome sequence information and annotation. The 7,082,538 high-quality-draft genome is arranged in 18 scaffolds of 104 contigs, contains 6,956 protein-coding genes and 84 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.
Standards in Genomic Sciences | 2013
Wayne Reeve; Sofie E. De Meyer; Jason Terpolilli; Vanessa Melino; Julie Ardley; Tian Rui; Ravi Tiwari; John Howieson; R.J. Yates; Graham O’Hara; Megan Lu; David Bruce; Chris Detter; Roxanne Tapia; Cliff Han; Chia-Lin Wei; Marcel Huntemann; James Han; I-Min A. Chen; Konstantinos Mavromatis; Victor Markowitz; Ernest Szeto; Natalia Ivanova; Natalia Mikhailova; Galina Ovchinnikova; Ioanna Pagani; Amrita Pati; Lynne Goodwin; Lin Peters; Sam Pitluck
Abstract“Burkholderia sprentiae” strain WSM5005T is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated in Australia from an effective N2-fixing root nodule of Lebeckia ambigua collected in Klawer, Western Cape of South Africa, in October 2007. Here we describe the features of “Burkholderia sprentiae” strain WSM5005T, together with the genome sequence and its annotation. The 7,761,063 bp high-quality-draft genome is arranged in 8 scaffolds of 236 contigs, contains 7,147 protein-coding genes and 76 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.
Standards in Genomic Sciences | 2013
Wayne Reeve; Jason Terpolilli; Vanessa Melino; Julie Ardley; Rui Tian; Sofie E. De Meyer; Ravi Tiwari; R.J. Yates; Graham O’Hara; John Howieson; Mohamed Ninawi; Brittany Held; David Bruce; Chris Detter; Roxanne Tapia; Cliff Han; Chia-Lin Wei; Marcel Huntemann; James Han; I-Min A. Chen; Konstantinos Mavromatis; Victor Markowitz; Natalia Ivanova; Galina Ovchinnikova; Ioanna Pagani; Amrita Pati; Lynne Goodwin; Tanja Woyke; Nikos C. Kyrpides
Rhizobium leguminosarum bv. trifolii strain WSM597 is an aerobic, motile, Gram-negative, non-spore-forming rod isolated from a root nodule of the annual clover Trifolium pallidum L. growing at Glencoe Research Station near Tacuarembó, Uruguay. This strain is generally ineffective for nitrogen (N2) fixation with clovers of Mediterranean, North American and African origin, but is effective on the South American perennial clover T. polymorphum Poir. Here we describe the features of R. leguminosarum bv. trifolii strain WSM597, together with genome sequence information and annotation. The 7,634,384 bp high-quality-draft genome is arranged in 2 scaffolds of 53 contigs, contains 7,394 protein-coding genes and 87 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.
Standards in Genomic Sciences | 2013
Wayne Reeve; Vanessa Melino; Julie Ardley; Rui Tian; Sofie E. De Meyer; Jason Terpolilli; Ravi Tiwari; R.J. Yates; Graham O’Hara; John Howieson; Mohamed Ninawi; Brittany Held; David Bruce; Chris Detter; Roxanne Tapia; Cliff Han; Chia-Lin Wei; Marcel Huntemann; James Han; I-Min A. Chen; Konstantinos Mavromatis; Victor Markowitz; Ernest Szeto; Natalia Ivanova; Natalia Mikhailova; Ioanna Pagani; Amrita Pati; Lynne Goodwin; Tanja Woyke; Nikos C. Kyrpides
Rhizobium leguminosarum bv. trifolii WSM2012 (syn. MAR1468) is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an ineffective root nodule recovered from the roots of the annual clover Trifolium rueppellianum Fresen growing in Ethiopia. WSM2012 has a narrow, specialized host range for N2-fixation. Here we describe the features of R. leguminosarum bv. trifolii strain WSM2012, together with genome sequence information and annotation. The 7,180,565 bp high-quality-draft genome is arranged into 6 scaffolds of 68 contigs, contains 7,080 protein-coding genes and 86 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.
