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1. Enhanced cultured diversity of the mouse gut microbiota enables custom-made synthetic communities

Author

Afrizal, Afrizal, Jennings, Susan A.V., Hitch, Thomas C.A., Riedel, Thomas, Basic, Marijana, Panyot, Atscharah, Treichel, Nicole, Hager, Fabian T., Wong, Erin Oi-Yan, Wolter, Birger, Viehof, Alina, von Strempel, Alexandra, Eberl, Claudia, Buhl, Eva M., Abt, Birte, Bleich, André, Tolba, René, Blank, Lars M., Navarre, William W., Kiessling, Fabian, Horz, Hans-Peter, Torow, Natalia, Cerovic, Vuk, Stecher, Bärbel, Strowig, Till, Overmann, Jörg, and Clavel, Thomas

Published
2022
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2. Complete genome sequence of Planctomyces brasiliensis type strain (DSM 5305T), phylogenomic analysis and reclassification of Planctomycetes including the descriptions of Gimesia gen. nov., Planctopirus gen. nov. and Rubinisphaera gen. nov. and emended descriptions of the order Planctomycetales and the family Planctomycetaceae

Author

Scheuner, Carmen, Tindall, Brian J, Lu, Megan, Nolan, Matt, Lapidus, Alla, Cheng, Jan-Fang, Goodwin, Lynne, Pitluck, Sam, Huntemann, Marcel, Liolios, Konstantinos, Pagani, Ioanna, Mavromatis, Konstantinos, Ivanova, Natalia, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Jeffries, Cynthia D, Hauser, Loren, Land, Miriam, Mwirichia, Romano, Rohde, Manfred, Abt, Birte, Detter, John C, Woyke, Tanja, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Göker, Markus, Kyrpides, Nikos C, and Klenk, Hans-Peter

Subjects
Microbiology, Biological Sciences, Genetics, Biotechnology, Human Genome, Non-peptidoglycan bacteria, Stalked bacteria, Halotolerant, Gram-negative, Taxonomic descriptions, Planctomycetales, Planctomycetes, GEBA
Abstract

Planctomyces brasiliensis Schlesner 1990 belongs to the order Planctomycetales, which differs from other bacterial taxa by several distinctive features such as internal cell compartmentalization, multiplication by forming buds directly from the spherical, ovoid or pear-shaped mother cell and a cell wall consisting of a proteinaceous layer rather than a peptidoglycan layer. The first strains of P. brasiliensis, including the type strain IFAM 1448(T), were isolated from a water sample of Lagoa Vermelha, a salt pit near Rio de Janeiro, Brasil. This is the second completed genome sequence of a type strain of the genus Planctomyces to be published and the sixth type strain genome sequence from the family Planctomycetaceae. The 6,006,602 bp long genome with its 4,811 protein-coding and 54 RNA genes is a part of the G enomic E ncyclopedia of Bacteria and Archaea project. Phylogenomic analyses indicate that the classification within the Planctomycetaceae is partially in conflict with its evolutionary history, as the positioning of Schlesneria renders the genus Planctomyces paraphyletic. A re-analysis of published fatty-acid measurements also does not support the current arrangement of the two genera. A quantitative comparison of phylogenetic and phenotypic aspects indicates that the three Planctomyces species with type strains available in public culture collections should be placed in separate genera. Thus the genera Gimesia, Planctopirus and Rubinisphaera are proposed to accommodate P. maris, P. limnophilus and P. brasiliensis, respectively. Pronounced differences between the reported G + C content of Gemmata obscuriglobus, Singulisphaera acidiphila and Zavarzinella formosa and G + C content calculated from their genome sequences call for emendation of their species descriptions. In addition to other features, the range of G + C values reported for the genera within the Planctomycetaceae indicates that the descriptions of the family and the order should be emended.

Published
2014

3. Genome sequence of the thermophilic fresh-water bacterium Spirochaeta caldaria type strain (H1(T)), reclassification of Spirochaeta caldaria, Spirochaeta stenostrepta, and Spirochaeta zuelzerae in the genus Treponema as Treponema caldaria comb. nov., Treponema stenostrepta comb. nov., and Treponema zuelzerae comb. nov., and emendation of the genus Treponema.

Author

Abt, Birte, Göker, Markus, Scheuner, Carmen, Han, Cliff, Lu, Megan, Misra, Monica, Lapidus, Alla, Nolan, Matt, Lucas, Susan, Hammon, Nancy, Deshpande, Shweta, Cheng, Jan-Fang, Tapia, Roxanne, Goodwin, Lynne A, Pitluck, Sam, Liolios, Konstantinos, Pagani, Ioanna, Ivanova, Natalia, Mavromatis, Konstantinos, Mikhailova, Natalia, Huntemann, Marcel, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Jeffries, Cynthia D, Rohde, Manfred, Spring, Stefan, Gronow, Sabine, Detter, John C, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Woyke, Tanja, and Klenk, Hans-Peter

Subjects
GEBA, Gram-negative, Spirochaeta, Spirochaetaceae, Treponema, chemoorganotrophic, motile, obligately anaerobic, periplasmic flagella, spiral-shaped, thermophilic, Biochemistry and Cell Biology, Genetics
Abstract

Spirochaeta caldaria Pohlschroeder et al. 1995 is an obligately anaerobic, spiral-shaped bacterium that is motile via periplasmic flagella. The type strain, H1(T), was isolated in 1990 from cyanobacterial mat samples collected at a freshwater hot spring in Oregon, USA, and is of interest because it enhances the degradation of cellulose when grown in co-culture with Clostridium thermocellum. Here we provide a taxonomic re-evaluation for S. caldaria based on phylogenetic analyses of 16S rRNA sequences and whole genomes, and propose the reclassification of S. caldaria and two other Spirochaeta species as members of the emended genus Treponema. Whereas genera such as Borrelia and Sphaerochaeta possess well-distinguished genomic features related to their divergent lifestyles, the physiological and functional genomic characteristics of Spirochaeta and Treponema appear to be intermixed and are of little taxonomic value. The 3,239,340 bp long genome of strain H1(T) with its 2,869 protein-coding and 59 RNA genes is a part of the G enomic E ncyclopedia of Bacteria and Archaea project.

Published
2013

4. Complete genome sequence of the halophilic bacterium Spirochaeta africana type strain (Z-7692T) from the alkaline Lake Magadi in the East African Rift

Author

Liolos, Konstantinos, Abt, Birte, Scheuner, Carmen, Teshima, Hazuki, Held, Brittany, Lapidus, Alla, Nolan, Matt, Lucas, Susan, Deshpande, Shweta, Cheng, Jan-Fang, Tapia, Roxanne, Goodwin, Lynne A, Pitluck, Sam, Pagani, Ioanna, Ivanova, Natalia, Mavromatis, Konstantinos, Mikhailova, Natalia, Huntemann, Marcel, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Rohde, Manfred, Tindall, Brian J, Detter, John C, Göker, Markus, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Woyke, Tanja, Klenk, Hans-Peter, and Kyrpides, Nikos C

Subjects
Microbiology, Biological Sciences, Genetics, Infectious Diseases, Human Genome, anaerobic, aerotolerant, mesophilic, halophilic, spiral-shaped, motile, periplasmic flagella, Gram-negative, chemoorganotrophic, Spirochaetaceae, GEBA
Abstract

Spirochaeta africana Zhilina et al. 1996 is an anaerobic, aerotolerant, spiral-shaped bacterium that is motile via periplasmic flagella. The type strain of the species, Z-7692(T), was isolated in 1993 or earlier from a bacterial bloom in the brine under the trona layer in a shallow lagoon of the alkaline equatorial Lake Magadi in Kenya. Here we describe the features of this organism, together with the complete genome sequence, and annotation. Considering the pending reclassification of S. caldaria to the genus Treponema, S. africana is only the second 'true' member of the genus Spirochaeta with a genome-sequenced type strain to be published. The 3,285,855 bp long genome of strain Z-7692(T) with its 2,817 protein-coding and 57 RNA genes is a part of the G enomic E ncyclopedia of B acteria and A rchaea project.

Published
2013

6. Genome sequence of the filamentous, gliding Thiothrix nivea neotype strain (JP2(T)).

Author

Lapidus, Alla, Nolan, Matt, Lucas, Susan, Glavina Del Rio, Tijana, Tice, Hope, Cheng, Jan-Fang, Tapia, Roxanne, Han, Cliff, Goodwin, Lynne, Pitluck, Sam, Liolios, Konstantinos, Pagani, Ioanna, Ivanova, Natalia, Huntemann, Marcel, Mavromatis, Konstantinos, Mikhailova, Natalia, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Brambilla, Evelyne-Marie, Rohde, Manfred, Abt, Birte, Verbarg, Susanne, Göker, Markus, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Woyke, Tanja

Subjects
GEBA, Gram-negative, Thiotrichaceae, filaments, gliding motility, mesophile, sheath, strictly aerobic, sulfur granules, Biochemistry and Cell Biology, Genetics
Abstract

Thiothrix nivea (Rabenhorst 1865) Winogradsky 1888 (Approved Lists 1980) emend. Larkin and Shinabarger 1983 is the type species of the genus Thiothrix in the family Thiotrichaceae. The species is of interest not only because of its isolated location in the yet to be genomically characterized region of the tree of life, but also because of its life-style with gliding gonidia, the multilayer sheath, rosettes, and the embedded sulfur granules. Strain JP2(T) is the neotype strain of the species which was first observed by Rabenhorst in 1865 and later reclassified by Winogradsky in 1888 into the then novel genus Thiothrix. This is the first completed (improved-high-quality-draft) genome sequence to be published of a member of the family Thiotrichaceae. The genome in its current assembly consists of 15 contigs in four scaffolds with a total of 4,691,711 bp bearing 4,542 protein-coding and 52 RNA genes and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

7. Complete genome sequence of the thermophilic, hydrogen-oxidizing Bacillus tusciae type strain (T2) and reclassification in the new genus, Kyrpidia gen. nov. as Kyrpidia tusciae comb. nov. and emendation of the family Alicyclobacillaceae da Costa and Rainey, 2010.

Author

Klenk, Hans-Peter, Lapidus, Alla, Chertkov, Olga, Copeland, Alex, Del Rio, Tijana Glavina, Nolan, Matt, Lucas, Susan, Chen, Feng, Tice, Hope, Cheng, Jan-Fang, Han, Cliff, Bruce, David, Goodwin, Lynne, Pitluck, Sam, Pati, Amrita, Ivanova, Natalia, Mavromatis, Konstantinos, Daum, Chris, Chen, Amy, Palaniappan, Krishna, Chang, Yun-Juan, Land, Miriam, Hauser, Loren, Jeffries, Cynthia D, Detter, John C, Rohde, Manfred, Abt, Birte, Pukall, Rüdiger, Göker, Markus, Bristow, James, Markowitz, Victor, Hugenholtz, Philip, and Eisen, Jonathan A

Subjects
Bacillaceae, GEBA, aerobe, facultative chemolithoautotroph, free-living, hydrogen-oxidizing, solfatara, spore-forming, thermoacidophile, Biochemistry and Cell Biology, Genetics
Abstract

Bacillus tusciae Bonjour & Aragno 1994 is a hydrogen-oxidizing, thermoacidophilic spore former that lives as a facultative chemolithoautotroph in solfataras. Although 16S rRNA gene sequencing was well established at the time of the initial description of the organism, 16S sequence data were not available and the strain was placed into the genus Bacillus based on limited chemotaxonomic information. Despite the now obvious misplacement of strain T2 as a member of the genus Bacillus in 16S rRNA-based phylogenetic trees, the misclassification remained uncorrected for many years, which was likely due to the extremely difficult, analysis-hampering cultivation conditions and poor growth rate of the strain. Here we provide a taxonomic re-evaluation of strain T2T (= DSM 2912 = NBRC 15312) and propose its reclassification as the type strain of a new species, Kyrpidia tusciae, and the type species of the new genus Kyrpidia, which is a sister-group of Alicyclobacillus. The family Alicyclobacillaceae da Costa and Rainey, 2010 is emended. The 3,384,766 bp genome with its 3,323 protein-coding and 78 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

8. Non-contiguous finished genome sequence and contextual data of the filamentous soil bacterium Ktedonobacter racemifer type strain (SOSP1-21).

Author

Chang, Yun-Juan, Land, Miriam, Hauser, Loren, Chertkov, Olga, Del Rio, Tijana Glavina, Nolan, Matt, Copeland, Alex, Tice, Hope, Cheng, Jan-Fang, Lucas, Susan, Han, Cliff, Goodwin, Lynne, Pitluck, Sam, Ivanova, Natalia, Ovchinikova, Galina, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Mavromatis, Konstantinos, Liolios, Konstantinos, Brettin, Thomas, Fiebig, Anne, Rohde, Manfred, Abt, Birte, Göker, Markus, Detter, John C, Woyke, Tanja, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Lapidus, Alla

Subjects
Chloroflexi, GEBA, Gram-positive, Ktedonobacteraceae, aerobic, broken-stick distribution, entropy, filamentous, heterotrophic, moderately acidophilic, non-motile, sporulating, transposon, Biochemistry and Cell Biology, Genetics
Abstract

Ktedonobacter racemifer corrig. Cavaletti et al. 2007 is the type species of the genus Ktedonobacter, which in turn is the type genus of the family Ktedonobacteraceae, the type family of the order Ktedonobacterales within the class Ktedonobacteria in the phylum 'Chloroflexi'. Although K. racemifer shares some morphological features with the actinobacteria, it is of special interest because it was the first cultivated representative of a deep branching unclassified lineage of otherwise uncultivated environmental phylotypes tentatively located within the phylum 'Chloroflexi'. The aerobic, filamentous, non-motile, spore-forming Gram-positive heterotroph was isolated from soil in Italy. The 13,661,586 bp long non-contiguous finished genome consists of ten contigs and is the first reported genome sequence from a member of the class Ktedonobacteria. With its 11,453 protein-coding and 87 RNA genes, it is the largest prokaryotic genome reported so far. It comprises a large number of over-represented COGs, particularly genes associated with transposons, causing the genetic redundancy within the genome being considerably larger than expected by chance. This work is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

9. Genome sequence of the moderately thermophilic halophile Flexistipes sinusarabici strain (MAS10).

Author

Lapidus, Alla, Chertkov, Olga, Nolan, Matt, Lucas, Susan, Hammon, Nancy, Deshpande, Shweta, Cheng, Jan-Fang, Tapia, Roxanne, Han, Cliff, Goodwin, Lynne, Pitluck, Sam, Liolios, Konstantinos, Pagani, Ioanna, Ivanova, Natalia, Huntemann, Marcel, Mavromatis, Konstantinos, Mikhailova, Natalia, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Brambilla, Evelyne-Marie, Rohde, Manfred, Abt, Birte, Spring, Stefan, Göker, Markus, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Woyke, Tanja

Subjects
Deferribacteraceae, GEBA, Gram-negative, brine, heterotrophic, marine, moderately thermophilic, non-motile, strictly anaerobic, Biochemistry and Cell Biology, Genetics
Abstract

Flexistipes sinusarabici Fiala et al. 2000 is the type species of the genus Flexistipes in the family Deferribacteraceae. The species is of interest because of its isolated phylogenetic location in a genomically under-characterized region of the tree of life, and because of its origin from a multiply extreme environment; the Atlantis Deep brines of the Red Sea, where it had to struggle with high temperatures, high salinity, and a high concentrations of heavy metals. This is the fourth completed genome sequence to be published of a type strain of the family Deferribacteraceae. The 2,526,590 bp long genome with its 2,346 protein-coding and 53 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

10. Complete genome sequence of the gliding, heparinolytic Pedobacter saltans type strain (113).

Author

Liolios, Konstantinos, Sikorski, Johannes, Lu, Meagan, Nolan, Matt, Lapidus, Alla, Lucas, Susan, Hammon, Nancy, Deshpande, Shweta, Cheng, Jan-Fang, Tapia, Roxanne, Han, Cliff, Goodwin, Lynne, Pitluck, Sam, Huntemann, Marcel, Ivanova, Natalia, Pagani, Ioanna, Mavromatis, Konstantinos, Ovchinikova, Galina, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Brambilla, Evelyne-Marie, Kotsyurbenko, Oleg, Rohde, Manfred, Tindall, Brian J, Abt, Birte, Göker, Markus, Detter, John C, Woyke, Tanja, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Klenk, Hans-Peter, and Kyrpides, Nikos C

Subjects
GEBA, Gram-negative, Sphingobacteriaceae, chemoorganotrophic, gliding motility, heparinolytic, mesophilic, strictly aerobic, Biochemistry and Cell Biology, Genetics
Abstract

Pedobacter saltans Steyn et al. 1998 is one of currently 32 species in the genus Pedobacter within the family Sphingobacteriaceae. The species is of interest for its isolated location in the tree of life. Like other members of the genus P. saltans is heparinolytic. Cells of P. saltans show a peculiar gliding, dancing motility and can be distinguished from other Pedobacter strains by their ability to utilize glycerol and the inability to assimilate D-cellobiose. The genome presented here is only the second completed genome sequence of a type strain from a member of the family Sphingobacteriaceae to be published. The 4,635,236 bp long genome with its 3,854 protein-coding and 67 RNA genes consists of one chromosome, and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

11. Complete genome sequence of Mahella australiensis type strain (50-1 BON).

Author

Sikorski, Johannes, Teshima, Hazuki, Nolan, Matt, Lucas, Susan, Hammon, Nancy, Deshpande, Shweta, Cheng, Jan-Fang, Pitluck, Sam, Liolios, Konstantinos, Pagani, Ioanna, Ivanova, Natalia, Huntemann, Marcel, Mavromatis, Konstantinos, Ovchinikova, Galina, Pati, Amrita, Tapia, Roxanne, Han, Cliff, Goodwin, Lynne, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Ngatchou-Djao, Olivier D, Rohde, Manfred, Pukall, Rüdiger, Spring, Stefan, Abt, Birte, Göker, Markus, Detter, John C, Woyke, Tanja, Bristow, James, Markowitz, Victor, Hugenholtz, Philip, Eisen, Jonathan A, Kyrpides, Nikos C, Klenk, Hans-Peter, and Lapidus, Alla

Subjects
GEBA, Gram-positive, Thermoanaerobacteraceae, chemoorganotrophic, moderately thermophilic, motile, spore-forming, strictly anaerobic, Biochemistry and Cell Biology, Genetics
Abstract

Mahella australiensis Bonilla Salinas et al. 2004 is the type species of the genus Mahella, which belongs to the family Thermoanaerobacteraceae. The species is of interest because it differs from other known anaerobic spore-forming bacteria in its G+C content, and in certain phenotypic traits, such as carbon source utilization and relationship to temperature. Moreover, it has been discussed that this species might be an indigenous member of petroleum and oil reservoirs. This is the first completed genome sequence of a member of the genus Mahella and the ninth completed type strain genome sequence from the family Thermoanaerobacteraceae. The 3,135,972 bp long genome with its 2,974 protein-coding and 59 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

12. Complete genome sequence of the hyperthermophilic chemolithoautotroph Pyrolobus fumarii type strain (1A).

Author

Anderson, Iain, Göker, Markus, Nolan, Matt, Lucas, Susan, Hammon, Nancy, Deshpande, Shweta, Cheng, Jan-Fang, Tapia, Roxanne, Han, Cliff, Goodwin, Lynne, Pitluck, Sam, Huntemann, Marcel, Liolios, Konstantinos, Ivanova, Natalia, Pagani, Ioanna, Mavromatis, Konstantinos, Ovchinikova, Galina, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Brambilla, Evelyne-Marie, Huber, Harald, Yasawong, Montri, Rohde, Manfred, Spring, Stefan, Abt, Birte, Sikorski, Johannes, Wirth, Reinhard, Detter, John C, Woyke, Tanja, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Lapidus, Alla

Subjects
GEBA, Pyrodictiaceae, black smoker, chemolithoautotroph, facultative microaerophilic, hydrothermal solfataric vents, hyperthermophile, non-motile, Biochemistry and Cell Biology, Genetics
Abstract

Pyrolobus fumarii Blöchl et al. 1997 is the type species of the genus Pyrolobus, which belongs to the crenarchaeal family Pyrodictiaceae. The species is a facultatively microaerophilic non-motile crenarchaeon. It is of interest because of its isolated phylogenetic location in the tree of life and because it is a hyperthermophilic chemolithoautotroph known as the primary producer of organic matter at deep-sea hydrothermal vents. P. fumarii exhibits currently the highest optimal growth temperature of all life forms on earth (106°C). This is the first completed genome sequence of a member of the genus Pyrolobus to be published and only the second genome sequence from a member of the family Pyrodictiaceae. Although Diversa Corporation announced the completion of sequencing of the P. fumarii genome on September 25, 2001, this sequence was never released to the public. The 1,843,267 bp long genome with its 1,986 protein-coding and 52 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

13. Non-contiguous finished genome sequence of Bacteroides coprosuis type strain (PC139).

Author

Land, Miriam, Held, Brittany, Gronow, Sabine, Abt, Birte, Lucas, Susan, Del Rio, Tijana Glavina, Nolan, Matt, Tice, Hope, Cheng, Jan-Fang, Pitluck, Sam, Liolios, Konstantinos, Pagani, Ioanna, Ivanova, Natalia, Mavromatis, Konstantinos, Mikhailova, Natalia, Pati, Amrita, Tapia, Roxane, Han, Cliff, Goodwin, Lynne, Chen, Amy, Palaniappan, Krishna, Hauser, Loren, Brambilla, Evelyne-Marie, Rohde, Manfred, Göker, Markus, Detter, John C, Woyke, Tanja, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Lapidus, Alla

Subjects
Bacteroidaceae, GEBA, Gram-negative, chemoorganotrophic, mesophilic, non-motile, strictly anaerobic, Biochemistry and Cell Biology, Genetics
Abstract

Bacteroides coprosuis Whitehead et al. 2005 belongs to the genus Bacteroides, which is a member of the family Bacteroidaceae. Members of the genus Bacteroides in general are known as beneficial protectors of animal guts against pathogenic microorganisms, and as contributors to the degradation of complex molecules such as polysaccharides. B. coprosuis itself was isolated from a manure storage pit of a swine facility, but has not yet been found in an animal host. The species is of interest solely because of its isolated phylogenetic location. The genome of B. coprosuis is already the 5(th) sequenced type strain genome from the genus Bacteroides. The 2,991,798 bp long genome with its 2,461 protein-coding and 78 RNA genes and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

14. Complete genome sequence of Cellulophaga lytica type strain (LIM-21).

Author

Pati, Amrita, Abt, Birte, Teshima, Hazuki, Nolan, Matt, Lapidus, Alla, Lucas, Susan, Hammon, Nancy, Deshpande, Shweta, Cheng, Jan-Fang, Tapia, Roxane, Han, Cliff, Goodwin, Lynne, Pitluck, Sam, Liolios, Konstantinos, Pagani, Ioanna, Mavromatis, Konstantinos, Ovchinikova, Galina, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Jeffries, Cynthia D, Detter, John C, Brambilla, Evelyne-Marie, Kannan, K Palani, Rohde, Manfred, Spring, Stefan, Göker, Markus, Woyke, Tanja, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Ivanova, Natalia

Subjects
Flavobacteriaceae, GEBA, Gram-negative, aerobic, agarolytic, chemoorganotrophic, motile by gliding, Biochemistry and Cell Biology, Genetics
Abstract

Cellulophaga lytica (Lewin 1969) Johansen et al. 1999 is the type species of the genus Cellulophaga, which belongs to the family Flavobacteriaceae within the phylum 'Bacteroidetes' and was isolated from marine beach mud in Limon, Costa Rica. The species is of biotechnological interest because its members produce a wide range of extracellular enzymes capable of degrading proteins and polysaccharides. After the genome sequence of Cellulophaga algicola this is the second completed genome sequence of a member of the genus Cellulophaga. The 3,765,936 bp long genome with its 3,303 protein-coding and 55 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

15. Complete genome sequence of Leadbetterella byssophila type strain (4M15).

Author

Abt, Birte, Teshima, Hazuki, Lucas, Susan, Lapidus, Alla, Del Rio, Tijana Glavina, Nolan, Matt, Tice, Hope, Cheng, Jan-Fang, Pitluck, Sam, Liolios, Konstantinos, Pagani, Ioanna, Ivanova, Natalia, Mavromatis, Konstantinos, Pati, Amrita, Tapia, Roxane, Han, Cliff, Goodwin, Lynne, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Chang, Yun-Juan, Jeffries, Cynthia D, Rohde, Manfred, Göker, Markus, Tindall, Brian J, Detter, John C, Woyke, Tanja, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Klenk, Hans-Peter, and Kyrpides, Nikos C

Subjects
Cytophagaceae, GEBA, Gram-negative, aerobic, flexirubin, mesophile, non-motile, non-sporulating, Biochemistry and Cell Biology, Genetics
Abstract

Leadbetterella byssophila Weon et al. 2005 is the type species of the genus Leadbetterella of the family Cytophagaceae in the phylum Bacteroidetes. Members of the phylum Bacteroidetes are widely distributed in nature, especially in aquatic environments. They are of special interest for their ability to degrade complex biopolymers. L. byssophila occupies a rather isolated position in the tree of life and is characterized by its ability to hydrolyze starch and gelatine, but not agar, cellulose or chitin. Here we describe the features of this organism, together with the complete genome sequence, and annotation. L. byssophila is already the 16(th) member of the family Cytophagaceae whose genome has been sequenced. The 4,059,653 bp long single replicon genome with its 3,613 protein-coding and 53 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

16. Complete genome sequence of Cellulophaga algicola type strain (IC166).

Author

Abt, Birte, Lu, Megan, Misra, Monica, Han, Cliff, Nolan, Matt, Lucas, Susan, Hammon, Nancy, Deshpande, Shweta, Cheng, Jan-Fang, Tapia, Roxane, Goodwin, Lynne, Pitluck, Sam, Liolios, Konstantinos, Pagani, Ioanna, Ivanova, Natalia, Mavromatis, Konstantinos, Ovchinikova, Galina, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Chang, Yun-Juan, Jeffries, Cynthia D, Detter, John C, Brambilla, Evelyne, Rohde, Manfred, Tindall, Brian J, Göker, Markus, Woyke, Tanja, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Lapidus, Alla

Subjects
Flavobacteriaceae, GEBA, Gram-negative, aerobic, agarolytic, chemoorganotrophic, cold adapted enzymes, motile by gliding, Biochemistry and Cell Biology, Genetics
Abstract

Cellulophaga algicola Bowman 2000 belongs to the family Flavobacteriaceae within the phylum 'Bacteroidetes' and was isolated from Melosira collected from the Eastern Antarctic coastal zone. The species is of interest because its members produce a wide range of extracellular enzymes capable of degrading proteins and polysaccharides with temperature optima of 20-30°C. This is the first completed genome sequence of a member of the genus Cellulophaga. The 4,888,353 bp long genome with its 4,285 protein-coding and 62 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2011

17. Complete genome sequence of Cellulomonas flavigena type strain (134).

Author

Abt, Birte, Foster, Brian, Lapidus, Alla, Clum, Alicia, Sun, Hui, Pukall, Rüdiger, Lucas, Susan, Glavina Del Rio, Tijana, Nolan, Matt, Tice, Hope, Cheng, Jan-Fang, Pitluck, Sam, Liolios, Konstantinos, Ivanova, Natalia, Mavromatis, Konstantinos, Ovchinnikova, Galina, Pati, Amrita, Goodwin, Lynne, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Chang, Yun-Juan, Jeffries, Cynthia D, Rohde, Manfred, Göker, Markus, Woyke, Tanja, Bristow, James, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, and Klenk, Hans-Peter

Subjects
Cellulomonadaceae, GEBA, Gram-positive, aerobic, cellulolytic, mesophile, non-motile, non-sporulating, xylan degrader, Biochemistry and Cell Biology, Genetics
Abstract

Cellulomonas flavigena (Kellerman and McBeth 1912) Bergey et al. 1923 is the type species of the genus Cellulomonas of the actinobacterial family Cellulomonadaceae. Members of the genus Cellulomonas are of special interest for their ability to degrade cellulose and hemicellulose, particularly with regard to the use of biomass as an alternative energy source. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the genus Cellulomonas, and next to the human pathogen Tropheryma whipplei the second complete genome sequence within the actinobacterial family Cellulomonadaceae. The 4,123,179 bp long single replicon genome with its 3,735 protein-coding and 53 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2010

18. Complete genome sequence of Chitinophaga pinensis type strain (UQM 2034).

Author

Glavina Del Rio, Tijana, Abt, Birte, Spring, Stefan, Lapidus, Alla, Nolan, Matt, Tice, Hope, Copeland, Alex, Cheng, Jan-Fang, Chen, Feng, Bruce, David, Goodwin, Lynne, Pitluck, Sam, Ivanova, Natalia, Mavromatis, Konstantinos, Mikhailova, Natalia, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Chang, Yun-Juan, Jeffries, Cynthia D, Chain, Patrick, Saunders, Elizabeth, Detter, John C, Brettin, Thomas, Rohde, Manfred, Göker, Markus, Bristow, Jim, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Lucas, Susan

Subjects
GEBA, Gram-negative, aerobic, biomass degrader, chitinolytic, filamentous, gliding, mesophile, myxospores, ‘Chitinophagaceae’, 'Chitinophagaceae', Biochemistry and Cell Biology, Genetics
Abstract

Chitinophaga pinensis Sangkhobol and Skerman 1981 is the type strain of the species which is the type species of the rapidly growing genus Chitinophaga in the sphingobacterial family 'Chitinophagaceae'. Members of the genus Chitinophaga vary in shape between filaments and spherical bodies without the production of a fruiting body, produce myxospores, and are of special interest for their ability to degrade chitin. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the family 'Chitinophagaceae', and the 9,127,347 bp long single replicon genome with its 7,397 protein-coding and 95 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2010

19. Complete genome sequence of Haliangium ochraceum type strain (SMP-2).

Author

Ivanova, Natalia, Daum, Chris, Lang, Elke, Abt, Birte, Kopitz, Markus, Saunders, Elizabeth, Lapidus, Alla, Lucas, Susan, Glavina Del Rio, Tijana, Nolan, Matt, Tice, Hope, Copeland, Alex, Cheng, Jan-Fang, Chen, Feng, Bruce, David, Goodwin, Lynne, Pitluck, Sam, Mavromatis, Konstantinos, Pati, Amrita, Mikhailova, Natalia, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Chang, Yun-Juan, Jeffries, Cynthia D, Detter, John C, Brettin, Thomas, Rohde, Manfred, Göker, Markus, Bristow, Jim, Markowitz, Victor, Eisen, Jonathan A, Hugenholtz, Philip, Kyrpides, Nikos C, and Klenk, Hans-Peter

Subjects
GEBA, Gram-negative, Myxococcales, aerobic, decomposition of bacterial and yeast cells, fruiting bodies, gliding, mesophile, moderately halophilic, myxobacteria, Biochemistry and Cell Biology, Genetics
Abstract

Haliangium ochraceum Fudou et al. 2002 is the type species of the genus Haliangium in the myxococcal family 'Haliangiaceae'. Members of the genus Haliangium are the first halophilic myxobacterial taxa described. The cells of the species follow a multicellular lifestyle in highly organized biofilms, called swarms, they decompose bacterial and yeast cells as most myxobacteria do. The fruiting bodies contain particularly small coccoid myxospores. H. ochraceum encodes the first actin homologue identified in a bacterial genome. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the myxococcal suborder Nannocystineae, and the 9,446,314 bp long single replicon genome with its 6,898 protein-coding and 53 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2010

20. Complete genome sequence of Xylanimonas cellulosilytica type strain (XIL07).

Author

Foster, Brian, Pukall, Rüdiger, Abt, Birte, Nolan, Matt, Glavina Del Rio, Tijana, Chen, Feng, Lucas, Susan, Tice, Hope, Pitluck, Sam, Cheng, Jan-Fang, Chertkov, Olga, Brettin, Thomas, Han, Cliff, Detter, John C, Bruce, David, Goodwin, Lynne, Ivanova, Natalia, Mavromatis, Konstantinos, Pati, Amrita, Mikhailova, Natalia, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Chang, Yun-Juan, Jeffries, Cynthia D, Chain, Patrick, Rohde, Manfred, Göker, Markus, Bristow, Jim, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Lapidus, Alla

Subjects
Aerobic, GEBA, Gram-positive, Promicromonosporaceae, cellulases, non-motile, xylanases, aerobic, Biochemistry and Cell Biology, Genetics
Abstract

Xylanimonas cellulosilytica Rivas et al. 2003 is the type species of the genus Xylanimonas of the actinobacterial family Promicromonosporaceae. The species X. cellulosilytica is of interest because of its ability to hydrolyze cellulose and xylan. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the large family Promicromonosporaceae, and the 3,831,380 bp long genome (one chromosome plus an 88,604 bp long plasmid) with its 3485 protein-coding and 61 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2010

21. Complete genome sequence of Eggerthella lenta type strain (IPP VPI 0255).

Author

Saunders, Elizabeth, Pukall, Rüdiger, Abt, Birte, Lapidus, Alla, Glavina Del Rio, Tijana, Copeland, Alex, Tice, Hope, Cheng, Jan-Fang, Lucas, Susan, Chen, Feng, Nolan, Matt, Bruce, David, Goodwin, Lynne, Pitluck, Sam, Ivanova, Natalia, Mavromatis, Konstantinos, Ovchinnikova, Galina, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Chang, Yun-Juan, Jeffries, Cynthia D, Chain, Patrick, Meincke, Linda, Sims, David, Brettin, Thomas, Detter, John C, Göker, Markus, Bristow, Jim, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Han, Cliff

Subjects
Coriobacteriaceae, Gram-positive, anaerobic, bacteremia, human intestinal microflora, mesophile, pathogenic, Biochemistry and Cell Biology, Genetics
Abstract

Eggerthella lenta (Eggerth 1935) Wade et al. 1999, emended Würdemann et al. 2009 is the type species of the genus Eggerthella, which belongs to the actinobacterial family Coriobacteriaceae. E. lenta is a Gram-positive, non-motile, non-sporulating pathogenic bacterium that can cause severe bacteremia. The strain described in this study has been isolated from a rectal tumor in 1935. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of the genus Eggerthella, and the 3,632,260 bp long single replicon genome with its 3123 protein-coding and 58 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2009

22. Complete genome sequence of Eggerthella lenta type strain (VPI 0255T)

Author

Saunders, Elizabeth, Pukall, Rüdiger, Abt, Birte, Lapidus, Alla, Glavina Del Rio, Tijana, Copeland, Alex, Tice, Hope, Cheng, Jan-Fang, Lucas, Susan, Chen, Feng, Nolan, Matt, Bruce, David, Goodwin, Lynne, Pitluck, Sam, Ivanova, Natalia, Mavromatis, Konstantinos, Ovchinnikova, Galina, Pati, Amrita, Chen, Amy, Palaniappan, Krishna, Land, Miriam, Hauser, Loren, Chang, Yun-Juan, Jeffries, Cynthia D, Chain, Patrick, Meincke, Linda, Sims, David, Brettin, Thomas, Detter, John C, Göker, Markus, Bristow, Jim, Eisen, Jonathan A, Markowitz, Victor, Hugenholtz, Philip, Kyrpides, Nikos C, Klenk, Hans-Peter, and Han, Cliff

Subjects
Genetics, Biotechnology, Human Genome, mesophile, anaerobic, human intestinal microflora, pathogenic, bacteremia, Gram-positive, Coriobacteriaceae
Abstract

Eggerthella lenta (Eggerth 1935) Wade et al. 1999, emended Würdemann et al. 2009 is the type species of the genus Eggerthella, which belongs to the actinobacterial family Coriobacteriaceae. E. lenta is a Gram-positive, non-motile, non-sporulating pathogenic bacterium that can cause severe bacteremia. The strain described in this study has been isolated from a rectal tumor in 1935. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of the genus Eggerthella, and the 3,632,260 bp long single replicon genome with its 3123 protein-coding and 58 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.

Published
2009

23. A collection of bacterial isolates from the pig intestine reveals functional and taxonomic diversity

Author

Wylensek, David, Hitch, Thomas C. A., Riedel, Thomas, Afrizal, Afrizal, Kumar, Neeraj, Wortmann, Esther, Liu, Tianzhe, Devendran, Saravanan, Lesker, Till R., Hernández, Sara B., Heine, Viktoria, Buhl, Eva M., M. D’Agostino, Paul, Cumbo, Fabio, Fischöder, Thomas, Wyschkon, Marzena, Looft, Torey, Parreira, Valeria R., Abt, Birte, Doden, Heidi L., Ly, Lindsey, Alves, João M. P., Reichlin, Markus, Flisikowski, Krzysztof, Suarez, Laura Navarro, Neumann, Anthony P., Suen, Garret, de Wouters, Tomas, Rohn, Sascha, Lagkouvardos, Ilias, Allen-Vercoe, Emma, Spröer, Cathrin, Bunk, Boyke, Taverne-Thiele, Anja J., Giesbers, Marcel, Wells, Jerry M., Neuhaus, Klaus, Schnieke, Angelika, Cava, Felipe, Segata, Nicola, Elling, Lothar, Strowig, Till, Ridlon, Jason M., Gulder, Tobias A. M., Overmann, Jörg, and Clavel, Thomas

Published
2020
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25. Enhanced cultured diversity of the mouse gut microbiota enables custom-made synthetic communities

Author

Afrizal, Afrizal, primary, Jennings, Susan A. V., additional, Hitch, Thomas C. A., additional, Riedel, Thomas, additional, Basic, Marijana, additional, Panyot, Atscharah, additional, Treichel, Nicole, additional, Hager, Fabian T., additional, Brück, Ramona, additional, Wong, Erin Oi-Yan, additional, von Strempel, Alexandra, additional, Eberl, Claudia, additional, Buhl, Eva M., additional, Abt, Birte, additional, Bleich, André, additional, Tolba, René, additional, Navarre, William W., additional, Kiessling, Fabian, additional, Horz, Hans-Peter, additional, Torow, Natalia, additional, Cerovic, Vuk, additional, Stecher, Bärbel, additional, Strowig, Till, additional, Overmann, Jörg, additional, and Clavel, Thomas, additional

Published
2022
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28. The genome sequence of the tomato-pathogenic actinomycete Clavibacter michiganensis subsp, michiganensis NCPPB382 reveals a large island involved in pathogenicity

Author

Gartemann, Karl-Heinz, Abt, Birte, Bekel, Thomas, Burger, Annette, Engemann, Jutta, Flugel, Monika, Gaigalat, Lars, Goesmann, Alexander, Grafen, Ines, Kalinowski, Jorn, Kaup, Olaf, Kirchner, Oliver, Krause, Lutz, Linke, Burkhard, McHardy, Alice, Meyer, Folker, Pohle, Sandra, Ruckert, Christian, Schneiker, Susanne, Zellermann, Eva-Maria, Puhler, Alfred, Eichenlaub, Rudolf, Kaiser, Olaf, and Bartels, Daniela

Subjects
Bacteria, Pathogenic -- Genetic aspects, Tomatoes -- Diseases and pests, Biological sciences
Abstract

Clavibacter michiganensis subsp, michiganensis is a plant-pathogenic actinomycete that causes bacterial wilt and canker of tomato. The nucleotide sequence of the genome of strain NCPPB382 was determined. The chromosome is circular, consists of 3.298 Mb, and has a high G+C content (72.6%). Annotation revealed 3,080 putative protein-encoding sequences; only 26 pseudogenes were detected. Two rrn operons, 45 tRNAs, and three small stable RNA genes were found. The two circular plasmids, pCM1 (27.4 kbp) and pCM2 (70.0 kbp), which carry pathogenicity genes and thus are essential for virulence, have lower G+C contents (66.5 and 67.6%, respectively). In contrast to the genome of the closely related organism Ciavibacter michiganensis subsp. sepedonicus, the genome of C. michiganensis subsp, michiganensis lacks complete insertion elements and transposons. The 129-kb chp/tomA region with a low G+C content near the chromosomal origin of replication was shown to be necessary for pathogenicity. This region contains numerous genes encoding proteins involved in uptake and metabolism of sugars and several serine proteases. There is evidence that single genes located in this region, especially genes encoding serine proteases, are required for efficient colonization of the host. Although C. michiganensis subsp, michiganensis grows mainly in the xylem of tomato plants, no evidence for pronounced genome reduction was found. C. michiganensis subsp, michiganensis seems to have as many transporters and regulators as typical soil-inhabiting bacteria. However, the apparent lack of a sulfate reduction pathway, which makes C. michiganensis subsp, michiganensis dependent on reduced sulfur compounds for growth, is probably the reason for the poor survival of C. michiganensis subsp, michiganensis in soil.

Published
2008

29. Harmonious naming across nomenclature codes exemplified by the description of bacterial isolates from the mammalian gut.

Author

Hitch, Thomas C.A., Wylensek, David, Bisdorf, Kevin, Buhl, Eva M., Treichel, Nicole, Abt, Birte, Overmann, Jörg, and Clavel, Thomas

Abstract

A dual system for naming prokaryotes is currently in place based on the well-established International Code of Nomenclature of Prokaryotes (ICNP) and the newly created Code of Nomenclature of Prokaryotes Described from Sequence Data (SeqCode). Whilst recent creation of the SeqCode opened an avenue to accelerate the naming of uncultured taxa, the existence of two codes increases the risk of species being assigned multiple validly published names. In this work we present a workflow that aims to limit conflicts by firstly naming novel cultured taxa under the SeqCode, and secondly under the ICNP, enhancing the traceability of the taxa across the two codes. To exemplify this workflow, we describe four novel taxa isolated from the intestine of pigs: Intestinicryptomonas porci gen. nov., sp. nov. (strain CLA-KB-P66T, genome accession GCA_033971905.1TS) within a novel family, Intestinicryptomonaceae ; Grylomicrobium aquisgranensis gen. nov., sp. nov. (CLA-KB-P133T, GCA_033971865.1TS); Absicoccus intestinalis sp. nov. (CLA-KB-P134T, GCA_033971885.1TS); and Mesosutterella porci sp. nov. (oilRF-744- wt-GAM-9T, GCF_022134585.1TS). [ABSTRACT FROM AUTHOR]

Published
2024
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30. Additional file 4: of Sequence and cultivation study of Muribaculaceae reveals novel species, host preference, and functional potential of this yet undescribed family

Author

Lagkouvardos, Ilias, Lesker, Till, Hitch, Thomas, Gålvez, Eric, Nathiana Smit, Neuhaus, Klaus, Wang, Jun, Baines, John, Abt, Birte, BäRbel Stecher, JÜrg Overmann, Strowig, Till, and Clavel, Thomas

Abstract

Figure S2. Extended phylogenomic tree as described in Fig. 4 and the corresponding methods. Accessions of the genomes from short-term isolates (gray) are given in brackets next to their mouse facility of origin. (PDF 215 kb)

Published
2019
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31. Additional file 2: of Sequence and cultivation study of Muribaculaceae reveals novel species, host preference, and functional potential of this yet undescribed family

Author

Lagkouvardos, Ilias, Lesker, Till, Hitch, Thomas, Gálvez, Eric, Nathiana Smit, Neuhaus, Klaus, Wang, Jun, Baines, John, Abt, Birte, Stecher, Bärbel, Overmann, Jörg, Strowig, Till, and Clavel, Thomas

Abstract

Figure S1. KEGG-based analysis of S24-7 functions. A heatmap of differential completeness of KEGG modules across all 153 genomes analyzed in this study (colored as in Fig. 2 according to their type and study of origin). b Ordination analysis based on CAZy profiles showing that the a-glucan and plant glycan guild tended to be associated with genomes of low and high diversity, respectively, independent of genome quality and as assessed via completeness of KEGG modules (numbers in brackets refer to clusters in the heatmap). Multivariate analysis was calculated using the ADONIS function within the R vegan package (Dixon 2003). (PDF 1472 kb)

Published
2019
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32. Sequence and cultivation study of Muribaculaceae reveals novel species, host preference, and functional potential of this yet undescribed family

Author

Lagkouvardos, Ilias, Lesker, Till R., Overmann, Jörg, Strowig, Till, Clavel, Thomas, Hitch, Thomas C. A., Gálvez, Eric J. C., Smit, Nathiana, Neuhaus, Klaus, Wang, Jun, Baines, John F., Abt, Birte, Stecher, Bärbel, and HZI, Helmholtz Zentrum für Infektionsforschung GmbH, Inhoffenstr. 7, 38124 Braunschweig Germany.

Subjects
DNA, Bacterial, Bacteriological Techniques, Bacteroidetes, Research, Cultivation, Muribaculaceae, Biodiversity, Sequence Analysis, DNA, Mouse gut microbiota, DNA, Ribosomal, lcsh:Microbial ecology, Gastrointestinal Microbiome, Mice, Species Specificity, Bacterial diversity, Homeothermaceae, RNA, Ribosomal, 16S, Family S24-7, lcsh:QR100-130, Animals, Bacteroides, Metagenomics, Metagenomic species, Phylogeny
Abstract

Background Bacteria within family S24-7 (phylum Bacteroidetes) are dominant in the mouse gut microbiota and detected in the intestine of other animals. Because they had not been cultured until recently and the family classification is still ambiguous, interaction with their host was difficult to study and confusion still exists regarding sequence data annotation. Methods We investigated family S24-7 by combining data from large-scale 16S rRNA gene analysis and from functional and taxonomic studies of metagenomic and cultured species. Results A total of 685 species was inferred by full-length 16S rRNA gene sequence clustering. While many species could not be assigned ecological habitats (93,045 samples analyzed), the mouse was the most commonly identified host (average of 20% relative abundance and nine co-occurring species). Shotgun metagenomics allowed reconstruction of 59 molecular species, of which 34 were representative of the 16S rRNA gene-derived species clusters. In addition, cultivation efforts allowed isolating five strains representing three species, including two novel taxa. Genome analysis revealed that S24-7 spp. are functionally distinct from neighboring families and versatile with respect to complex carbohydrate degradation. Conclusions We provide novel data on the diversity, ecology, and description of bacterial family S24-7, for which the name Muribaculaceae is proposed. Electronic supplementary material The online version of this article (10.1186/s40168-019-0637-2) contains supplementary material, which is available to authorized users.

Published
2018
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34. M uricomes

Author

Riedel, Thomas, primary, Abt, Birte, additional, and Pukall, Rüdiger, additional

Published
2019
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35. Listeria goaensis sp. nov.

Author

Doijad, Swapnil P., primary, Poharkar, Krupali V., additional, Kale, Satyajit B., additional, Kerkar, Savita, additional, Kalorey, Dewanand R., additional, Kurkure, Nitin V., additional, Rawool, Deepak B., additional, Malik, Satya Veer Singh, additional, Ahmad, Rafed Yassin, additional, Hudel, Martina, additional, Chaudhari, Sandeep P., additional, Abt, Birte, additional, Overmann, Jörg, additional, Weigel, Markus, additional, Hain, Torsten, additional, Barbuddhe, Sukhadeo B., additional, and Chakraborty, Trinad, additional

Published
2018
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37. The Mouse Intestinal Bacterial Collection (miBC) provides host-specific insight into cultured diversity and functional potential of the gut microbiota

Author

Lagkouvardos, Ilias, Pukall, Rüdiger, Abt, Birte, Foesel, Bärbel U., Meier-Kolthoff, Jan P., Kumar, Neeraj, Bresciani, Anne, Martínez, Inés, Just, Sarah, Ziegler, Caroline, Brugiroux, Sandrine, Garzetti, Debora, Wenning, Mareike, Bui, Thi P. N., Wang, Jun, Hugenholtz, Floor, Plugge, Caroline M., Peterson, Daniel A., Hornef, Mathias W., Baines, John F., Smidt, Hauke, Walter, Jens, Kristiansen, Karsten, Nielsen, Henrik B., Haller, Dirk, Overmann, Jörg, Stecher, Bärbel, Clavel, Thomas, Lagkouvardos, Ilias, Pukall, Rüdiger, Abt, Birte, Foesel, Bärbel U., Meier-Kolthoff, Jan P., Kumar, Neeraj, Bresciani, Anne, Martínez, Inés, Just, Sarah, Ziegler, Caroline, Brugiroux, Sandrine, Garzetti, Debora, Wenning, Mareike, Bui, Thi P. N., Wang, Jun, Hugenholtz, Floor, Plugge, Caroline M., Peterson, Daniel A., Hornef, Mathias W., Baines, John F., Smidt, Hauke, Walter, Jens, Kristiansen, Karsten, Nielsen, Henrik B., Haller, Dirk, Overmann, Jörg, Stecher, Bärbel, and Clavel, Thomas

Published
2016

38. Correction: Corrigendum: The Mouse Intestinal Bacterial Collection (miBC) provides host-specific insight into cultured diversity and functional potential of the gut microbiota

Author

Lagkouvardos, Ilias, primary, Pukall, Rüdiger, additional, Abt, Birte, additional, Foesel, Bärbel U., additional, Meier-Kolthoff, Jan P., additional, Kumar, Neeraj, additional, Bresciani, Anne, additional, Martínez, Inés, additional, Just, Sarah, additional, Ziegler, Caroline, additional, Brugiroux, Sandrine, additional, Garzetti, Debora, additional, Wenning, Mareike, additional, Bui, Thi P. N., additional, Wang, Jun, additional, Hugenholtz, Floor, additional, Plugge, Caroline M., additional, Peterson, Daniel A., additional, Hornef, Mathias W., additional, Baines, John F., additional, Smidt, Hauke, additional, Walter, Jens, additional, Kristiansen, Karsten, additional, Nielsen, Henrik B., additional, Haller, Dirk, additional, Overmann, Jörg, additional, Stecher, Bärbel, additional, and Clavel, Thomas, additional

Published
2016
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39. The Mouse Intestinal Bacterial Collection (miBC) provides host-specific insight into cultured diversity and functional potential of the gut microbiota

Author

Lagkouvardos, Ilias, primary, Pukall, Rüdiger, additional, Abt, Birte, additional, Foesel, Bärbel U., additional, Meier-Kolthoff, Jan P., additional, Kumar, Neeraj, additional, Bresciani, Anne, additional, Martínez, Inés, additional, Just, Sarah, additional, Ziegler, Caroline, additional, Brugiroux, Sandrine, additional, Garzetti, Debora, additional, Wenning, Mareike, additional, Bui, Thi P. N., additional, Wang, Jun, additional, Hugenholtz, Floor, additional, Plugge, Caroline M., additional, Peterson, Daniel A., additional, Hornef, Mathias W., additional, Baines, John F., additional, Smidt, Hauke, additional, Walter, Jens, additional, Kristiansen, Karsten, additional, Nielsen, Henrik B., additional, Haller, Dirk, additional, Overmann, Jörg, additional, Stecher, Bärbel, additional, and Clavel, Thomas, additional

Published
2016
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41. Untersuchungen zur Stabilität und Konjugation der Plasmide pCM1 und pCM2 von Clavibacter michiganensis subsp. michiganensis

Author

Abt, Birte

Subjects
Clavibacter michiganensis , Plasmid , Bakterielle Konjugation , Stabilität , Gram-positive Bakterien , Filter mating , Segregation , Glucose
Abstract

Die Plasmide von Clavibacter michiganensis subsp. michiganensis NCPPB382 (Cmm), pCM1 und pCM2, tragen die für die Virulenz essentiellen Pathogenitätsdeterminanten celA und pat-1. Nach der vollständigen Sequenzierung und Annotation des Cmm-Genoms konnten auf beiden Plasmiden potentielle Transferregionen bestimmt werden, die im Rahmen dieser Arbeit partiell charakterisiert worden sind. Die Analyse der Aminosäuresequenz des von pCM2 codierten TraA zeigte, dass TraA sowohl eine Helicase- als auch eine Relaxase-Domäne aufweist. Die Inaktivierung des traA-Gens führte zum Verlust der Transferfähigkeit von pCM2. Auch die jeweilige Inaktivierung der pCM2-Gene trbL und traE, letzteres codiert für ein hypothetisches VirB4-Homolog, hatte den Verlust der Konjugationsfähigkeit zur Folge. Ebenso führten die Mutationen in den Genen orfI und orfM der hypothetischen Transferregion von pCM1 zu transfernegativen pCM1-Derivaten. Die auf pCM1 und pCM2 identifizierten Regionen sind also für den konjugativen Plasmidtransfer essentiell. Durch die zum Teil detaillierte Analyse der Transferbedingungen von pCM2 konnte die Filterkreuzungsmethode für Cmm etabliert und standardisiert werden. Es konnte gezeigt werden, dass die Anwesenheit von Kohlenhydraten, wie z.B. Glucose, Fructose oder Saccharose, für den Nachweis des Plasmidtransfers in einem filter mating notwendig ist. Konjugation der Cmm-Plasmide bei Anzucht in Flüssigkultur war unter den gewählten Testbedingungen nicht nachweisbar. In Filterkreuzungsexperimenten verringerte ein zehnfacher Donor-Überschuss die Transferhäufigkeit von pCM2 um den Faktor 30, während die zehnfache Rezipienten-Anzahl keine Auswirkungen auf die Transferhäufigkeit hatte. Durch die Aufnahme der Kinetik des Plasmidtransfers während der ersten 12 Stunden eines filter matings konnte für pCM2 eine Transferrate zwischen 4 × 10^-9 und 4 × 10^-8 Transkonjuganten pro Donor pro Minute über einen Zeitraum von einer Stunde ermittelt werden. Die Transferhäufigkeit der Cmm-Plasmide wurde mit der standardisierten Filterkreuzungsmethode bestimmt. pCM1 hat eine relativ geringe Transferhäufigkeit von durchschnittlich 1,4 × 10^-8 Transkonjuganten pro reisoliertem Rezipienten. Damit ist sie um bis zu 4 Zehnerpotenzen geringer als die Transferhäufigkeit von pCM2, die zwischen 7,1 × 10^-6 und 1,2 × 10^-4 Transkonjuganten pro reisoliertem Rezipienten variieren kann. Es gibt erste Indizien für die Existenz eines vom Rezipienten ausgesendeten Signalmoleküls, das in den Donorzellen den Plasmidtransfer anregt. Allerdings muss diese Vermutung z.B. durch Microarray-Experimente überprüft werden. Segregationsexperimente in Flüssigkultur haben gezeigt, dass die Stabilität von pCM2 unter einer erhöhten Anzuchttemperatur von 32 °C abnimmt. Durch den Vergleich der Stabilität des konjugativen pCM2Nm und des nicht konjugativen pCM2traE wurde deutlich, dass in planta die Konjugationsfähigkeit zur stabilen Erhaltung von pCM2Nm auch unter der erhöhten Kultivierungstemperatur beiträgt. Der Verlust von pCM2 kann in einem System, das Konjugation ermöglicht, durch die konjugative Wiederaufnahme des Plasmids kompensiert werden.

Published
2008

42. Complete genome sequence of Planctomyces brasiliensis type strain (DSM 5305T), phylogenomic analysis and reclassification of Planctomycetes including the descriptions of Gimesia gen. nov., Planctopirus gen. nov. and Rubinisphaera gen. nov. and emended descriptions of the order Planctomycetales and the family Planctomycetaceae

Author

Scheuner, Carmen, primary, Tindall, Brian J, additional, Lu, Megan, additional, Nolan, Matt, additional, Lapidus, Alla, additional, Cheng, Jan-Fang, additional, Goodwin, Lynne, additional, Pitluck, Sam, additional, Huntemann, Marcel, additional, Liolios, Konstantinos, additional, Pagani, Ioanna, additional, Mavromatis, Konstantinos, additional, Ivanova, Natalia, additional, Pati, Amrita, additional, Chen, Amy, additional, Palaniappan, Krishna, additional, Jeffries, Cynthia D, additional, Hauser, Loren, additional, Land, Miriam, additional, Mwirichia, Romano, additional, Rohde, Manfred, additional, Abt, Birte, additional, Detter, John C, additional, Woyke, Tanja, additional, Eisen, Jonathan A, additional, Markowitz, Victor, additional, Hugenholtz, Philip, additional, Göker, Markus, additional, Kyrpides, Nikos C, additional, and Klenk, Hans-Peter, additional

Published
2014
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43. Complete genome sequence of the halophilic bacterium Spirochaeta africana type strain (Z-7692T) from the alkaline Lake Magadi in the East African Rift

Author

Liolos, Konstantinos, primary, Abt, Birte, additional, Scheuner, Carmen, additional, Teshima, Hazuki, additional, Held, Brittany, additional, Lapidus, Alla, additional, Nolan, Matt, additional, Lucas, Susan, additional, Deshpande, Shweta, additional, Cheng, Jan-Fang, additional, Tapia, Roxanne, additional, Goodwin, Lynne A., additional, Pitluck, Sam, additional, Pagani, Ioanna, additional, Ivanova, Natalia, additional, Mavromatis, Konstantinos, additional, Mikhailova, Natalia, additional, Huntemann, Marcel, additional, Pati, Amrita, additional, Chen, Amy, additional, Palaniappan, Krishna, additional, Land, Miriam, additional, Rohde, Manfred, additional, Tindall, Brian J., additional, Detter, John C., additional, Göker, Markus, additional, Bristow, James, additional, Eisen, Jonathan A., additional, Markowitz, Victor, additional, Hugenholtz, Philip, additional, Woyke, Tanja, additional, Klenk, Hans-Peter, additional, and Kyrpides, Nikos C., additional

Published
2013
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45. Complete genome sequence of the termite hindgut bacterium Spirochaeta coccoides type strain (SPN1T), reclassification in the genus Sphaerochaeta as Sphaerochaeta coccoides comb. nov. and emendations of the family Spirochaetaceae and the genus Sphaerochaeta

Author

Abt, Birte, primary, Han, Cliff, additional, Scheuner, Carmen, additional, Lu, Megan, additional, Lapidus, Alla, additional, Nolan, Matt, additional, Lucas, Susan, additional, Hammon, Nancy, additional, Deshpande, Shweta, additional, Cheng, Jan-Fang, additional, Tapia, Roxanne, additional, Goodwin, Lynne A., additional, Pitluck, Sam, additional, Liolios, Konstantinos, additional, Pagani, Ioanna, additional, Ivanova, Natalia, additional, Mavromatis, Konstantinos, additional, Mikhailova, Natalia, additional, Huntemann, Marcel, additional, Pati, Amrita, additional, Chen, Amy, additional, Palaniappan, Krishna, additional, Land, Miriam, additional, Hauser, Loren, additional, Brambilla, Evelyne-Marie, additional, Rohde, Manfred, additional, Spring, Stefan, additional, Gronow, Sabine, additional, Göker, Markus, additional, Woyke, Tanja, additional, Bristow, James, additional, Eisen, Jonathan A., additional, Markowitz, Victor, additional, Hugenholtz, Philip, additional, Kyrpides, Nikos C., additional, Klenk, Hans-Peter, additional, and Detter, John C., additional

Published
2012
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46. Complete genome sequence of Coraliomargarita akajimensis type strain (04OKA010-24T)

Author

Mavromatis, Konstantinos, primary, Abt, Birte, additional, Brambilla, Evelyne, additional, Lapidus, Alla, additional, Copeland, Alex, additional, Deshpande, Shweta, additional, Nolan, Matt, additional, Lucas, Susan, additional, Tice, Hope, additional, Cheng, Jan-Fang, additional, Han, Cliff, additional, Detter, John C., additional, Woyke, Tanja, additional, Goodwin, Lynne, additional, Pitluck, Sam, additional, Held, Brittany, additional, Brettin, Thomas, additional, Tapia, Roxanne, additional, Ivanova, Natalia, additional, Mikhailova, Natalia, additional, Pati, Amrita, additional, Liolios, Konstantinos, additional, Chen, Amy, additional, Palaniappan, Krishna, additional, Land, Miriam, additional, Hauser, Loren, additional, Chang, Yun-Juan, additional, Jeffries, Cynthia D., additional, Rohde, Manfred, additional, Göker, Markus, additional, Bristow, James, additional, Eisen, Jonathan A., additional, Markowitz, Victor, additional, Hugenholtz, Philip, additional, Klenk, Hans-Peter, additional, and Kyrpides, Nikos C., additional

Published
2010
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47. Complete genome sequence of Beutenbergia cavernae type strain (HKI 0122T)

Author

Land, Miriam, primary, Pukall, Rüdiger, additional, Abt, Birte, additional, Göker, Markus, additional, Rohde, Manfred, additional, Del Rio, Tijana Glavina, additional, Tice, Hope, additional, Copeland, Alex, additional, Cheng, Jan-Fang, additional, Lucas, Susan, additional, Chen, Feng, additional, Nolan, Matt, additional, Bruce, David, additional, Goodwin, Lynne, additional, Pitluck, Sam, additional, Ivanova, Natalia, additional, Mavrommatis, Konstantinos, additional, Ovchinnikova, Galina, additional, Pati, Amrita, additional, Chen, Amy, additional, Palaniappan, Krishna, additional, Hauser, Loren, additional, Chang, Yun-Juan, additional, Jefferies, Cynthia C., additional, Saunders, Elizabeth, additional, Brettin, Thomas, additional, Detter, John C., additional, Han, Cliff, additional, Chain, Patrick, additional, Bristow, James, additional, Eisen, Jonathan A., additional, Markowitz, Victor, additional, Hugenholtz, Philip, additional, Kyrpides, Nikos C., additional, Klenk, Hans-Peter, additional, and Lapidus, Alla, additional

Published
2009
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48. Structure-Function Relationships in the HAMP and Proximal Signaling Domains of the Aerotaxis Receptor Aer.

Author

Gartemann, Karl-Heinz, Abt, Birte, Bekel, Thomas, Burger, Annette, Engemann, Jutta, Flügel, Monika, Gaigalat, Lars, Goesmann, Alexander, Gräfen, Ines, Kalinowski, Jörn, Kaup, Olaf, Kirchner, Oliver, Krause, Lutz, Linke, Burkhard, McHardy, Alice, Meyer, Folker, Pohle, Sandra, Rückert, Christian, Schneiker, Susanne, and Zellermann, Eva-Maria

Subjects
*RNA, *CHROMOSOMES, *PLASMIDS, *SERINE proteinases, *PATHOGENICITY of enteroviruses, *NUCLEOTIDE sequence
Abstract

Clavibacter michiganensis subsp. michiganensis is a plant-pathogenic actinomycete that causes bacterial wilt and canker of tomato. The nucleotide sequence of the genome of strain NCPPB382 was determined. The chromosome is circular, consists of 3.298 Mb, and has a high G+C content (72.6%). Annotation revealed 3,080 putative protein-encoding sequences; only 26 pseudogenes were detected. Two rrn operons, 45 tRNAs, and three small stable RNA genes were found. The two circular plasmids, pCM1 (27.4 kbp) and pCM2 (70.0 kbp), which carry pathogenicity genes and thus are essential for virulence, have lower G+C contents (66.5 and 67.6%, respectively). In contrast to the genome of the closely related organism Clavibacter michiganensis subsp. sepedonicus, the genome of C. michiganensis subsp. michiganensis lacks complete insertion elements and transposons. The 129-kb chp/tomA region with a low G+C content near the chromosomal origin of replication was shown to be necessary for pathogenicity. This region contains numerous genes encoding proteins involved in uptake and metabolism of sugars and several serine proteases. There is evidence that single genes located in this region, especially genes encoding serine proteases, are required for efficient colonization of the host. Although C. michiganensis subsp. michiganensis grows mainly in the xylem of tomato plants, no evidence for pronounced genome reduction was found. C. michiganensis subsp. michiganensis seems to have as many transporters and regulators as typical soil-inhabiting bacteria. However, the apparent lack of a sulfate reduction pathway, which makes C. michiganensis subsp. michiganensis dependent on reduced sulfur compounds for growth, is probably the reason for the poor survival of C. michiganensis subsp. michiganensis in soil. [ABSTRACT FROM AUTHOR]

Published
2008
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49. Corrigendum: The Mouse Intestinal Bacterial Collection (miBC) provides host-specific insight into cultured diversity and functional potential of the gut microbiota.

Author

Lagkouvardos I, Pukall R, Abt B, Foesel BU, Meier-Kolthoff JP, Kumar N, Bresciani A, Martínez I, Just S, Ziegler C, Brugiroux S, Garzetti D, Wenning M, Bui TP, Wang J, Hugenholtz F, Plugge CM, Peterson DA, Hornef MW, Baines JF, Smidt H, Walter J, Kristiansen K, Nielsen HB, Haller D, Overmann J, Stecher B, and Clavel T

Published
2016
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50. Enterobacter bugandensis sp. nov., isolated from neonatal blood.

Author

Doijad S, Imirzalioglu C, Yao Y, Pati NB, Falgenhauer L, Hain T, Foesel BU, Abt B, Overmann J, Mirambo MM, Mshana SE, and Chakraborty T

Abstract

A total of 17 Enterobacter -like isolates were obtained from blood during a septicaemia outbreak in a neonatal unit, Tanzania, that could not be assigned based on phenotypic test to any existing Enterobacter species. Eight representative outbreak isolates were investigated in detail. Fermentation characteristics, biochemical assays and fatty acid profiles for taxonomic analysis were determined and supplemented with information derived from whole genome sequences. Phenotypic and morphological tests revealed that these isolates were Gram-stain-negative, rod-shaped, highly motile and facultatively anaerobic. The fatty acid profile was similar to those of the type strains for all recognized Enterobacter species, with quantitative differences in C 17 : 0 , C 18 : 1 ω7 c and C 17 : 0 cyclo fatty acids. Whole genome sequencing was used to identify taxonomically relevant characteristics, i.e. for 16S rRNA gene sequence analysis, multi-locus sequence analysis (MLSA), in silico DNA-DNA hybridization ( is DDH) and average nucleotide identity (ANI). Draft genomes were approximately 4.9 Mb in size with a G+C content of 56.0 mol%. The 16S rRNA gene sequence of these eight isolates showed >97 % similarity to all Enterobacter species, while MLSA clustered them closely with the type strains of Enterobacter xiangfangensis and Enterobacter hormaechei . These eight strains showed less than 70 % is DDH identity with the type strains of Enterobacter species. In addition, less than 95 % ANI to the type strains of Enterobacter species was observed. From these results, it is concluded that these isolates possess sufficient characteristics to differentiate them from all recognized Enterobacter species, and should therefore be considered as representing a novel species. The name Enterobacter bugandensis sp. nov. is proposed with EB-247 T ( = DSM 29888 T  = NCCB 100573 T ) as the type strain.

Published
2016
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