Relationship of Bacillus amyloliquefaciens clades associated with strains DSM 7T and FZB42T: a proposal for Bacillus amyloliquefaciens subsp. amyloliquefaciens subsp. nov. and Bacillus amyloliquefaciens subsp. plantarum subsp. nov. based on complete genome sequence comparisons

Borriss, Rainer; Chen, Xiaohua; Rueckert, Christian; Blom, Jochen; Becker, Anke; Baumgarth, Birgit; Fan, Bin; Pukall, Rüdiger; Schümann, Peter; Spröer, Cathrin; Junge, Helmut; Vater, Joachim; Pühler, Alfred; Klenk, Hans‐Peter

doi:10.1099/ijs.0.023267-0

Cited by 259 publications

(200 citation statements)

References 53 publications

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“…plantarum FZB42 T and 'B oryzicola' KACC 18228 are consistent with the strains belonging to the same species (Borriss et al, 2011;Chung et al, 2015;Madhaiyan et al, 2010;Ruiz-García et al, 2005). The previously published fatty acid methyl ester data are slightly variable, but the primary fatty acid components are the same.…”

supporting

confidence: 74%

“…Because the valid publication of B. velezensis (Ruiz-García et al, 2005) predates the publication of B. methylotrophicus (Madhaiyan et al, 2010), B. amyloliquefaciens subsp. plantarum (Borriss et al, 2011) and 'B. oryzicola' (Chung et al, 2015), we propose that B. methylotrophicus, B. amyloliquefaciens subsp.…”

Section: Phylogenomic Analysis Of Bacillus Velezensismentioning

confidence: 95%

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Bacillus velezensis is not a later heterotypic synonym of Bacillus amyloliquefaciens; Bacillus methylotrophicus, Bacillus amyloliquefaciens subsp. plantarum and ‘Bacillus oryzicola’ are later heterotypic synonyms of Bacillus velezensis based on phylogenomics

Dunlap

Kim

Kwon

et al. 2016

International Journal of Systematic and Evolutionary Microbiology

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supporting

confidence: 74%

Section: Phylogenomic Analysis Of Bacillus Velezensismentioning

confidence: 95%

Bacillus velezensis is not a later heterotypic synonym of Bacillus amyloliquefaciens; Bacillus methylotrophicus, Bacillus amyloliquefaciens subsp. plantarum and ‘Bacillus oryzicola’ are later heterotypic synonyms of Bacillus velezensis based on phylogenomics

Dunlap

Kim

Kwon

et al. 2016

International Journal of Systematic and Evolutionary Microbiology

275

166

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“…The cell-wall peptidoglycan contained meso-diaminopimelic acid. The total cellular fatty acid profiles showed a large amount of branched fatty acids; the major components (>5.0 %) were anteiso-C 15 : 0 (34.8 %), iso-C 15 : 0 (21.9 %), iso-C 17 : 0 (15.7 %), anteiso-C 17 : 0 (11.4 %) and C 16 : 0 (9.7 %) ( the close relatives B. amyloliquefaciens, B. atrophaeus and B. velezensis determined in this study were consistent with previously reported profiles (Borriss et al, 2011;Nakamura, 1989;Ruiz-García et al, 2005). B. nakamurai could not be distinguished from its closest related species on the basis of fatty acid profiles.…”

supporting

confidence: 92%

Bacillus nakamurai sp. nov., a black-pigment-producing strain

Dunlap

Saunders

Schisler

et al. 2016

International Journal of Systematic and Evolutionary Microbiology

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Two isolates of a Gram-stain-positive, strictly aerobic, motile, rod-shaped, endospore-forming bacterium were identified during a survey of the Bacillus diversity of the Agriculture Research Service Culture Collection. These strains were originally isolated from soil and have a phenotype of producing a dark pigment on tryptic soy agar. Phylogenetic analysis of the 16S rRNA gene indicated that these strains were related most closely to Bacillus subtilis subsp. inaquosorum (99.7 % similarity) and Bacillus axarquiensis (99.7 %). In phenotypic characterization, the novel strains were found to grow between 17 and 50 C and can tolerate up to 9 % (w/v) NaCl. Furthermore, the strains grew in media of pH 5.5-10 (optimal growth at pH 7.0-8.0). The predominant cellular fatty acids were anteiso-C 15 : 0 (34.8 %) and iso-C 15 : 0 (21.9 %). The cell-wall peptidoglycan contained meso-diaminopimelic acid. A draft genome of both strains was completed. The DNA G+C content was 43.8 mol%. A phylogenomic analysis on the core genome of these two new strains and all members of the Bacillus subtilis group revealed these two strains formed a distinct monophyletic clade with the nearest neighbour Bacillus amyloliquefaciens. DNA-DNA relatedness studies using in silico DNA-DNA hybridizations showed the two strains were conspecific (93.8 %), while values with all other species (<31.5 %) were well below the species threshold of 70 %. Based on the consensus of phylogenetic and phenotypic analyses, these strains are considered to represent a novel species within the genus Bacillus, for which the name Bacillus nakamurai sp. nov. is proposed, with type strain NRRL B-41091 T (=CCUG 68786 T ).

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“…In this way W23 more closely resembles the Gram-positive pathogen Staphylococcus aureus (Qian et al, 2006). Understanding the enzymology (Brown et al, 2010) and regulation (Minnig et al, 2005) of W23 wall synthesis remains an ongoing concern. W23 also remains a useful comparison to 168 for the study of B. subtilis taxonomy, ecology and evolution, since W23 is the best-characterized member of the subspecies spizizenii and 168 of subspecies subtilis (Nakamura et al, 1999).…”

Section: Introductionmentioning

confidence: 99%

The genome sequence of Bacillus subtilis subsp. spizizenii W23: insights into speciation within the B. subtilis complex and into the history of B. subtilis genetics

Zeigler

2011

Microbiology

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The genome sequence of Bacillus subtilis subsp. spizizenii W23: insights into speciation within the B. subtilis complex and into the history of B. subtilis genetics The genome sequence of Bacillus subtilis subsp. spizizenii W23 has been determined. The sequence strongly suggests that W23 is a direct descendant of B. subtilis ATCC 6633. W23 shares a 3.6 Mb core genome with the intensively studied model organism B. subtilis subsp. subtilis 168, and gene order within this core has been strongly conserved. Additionally, the W23 genome has 157 accessory (that is, non-core) genome segments that are not found in 168, while the 168 genome has 141 segments not found in W23. The distribution of sequences similar to these accessory segments among other genomes of the B. subtilis species complex shows that those sequences having entered into the phylogeny of the complex more recently tend to be larger and more AT-rich than those having entered earlier. A simple model can account for these observations, in which parasitic or symbiotic DNAs are transferred into the genome and then are reduced in size and modified in base composition during speciation. INTRODUCTIONStrain W23 holds an important place in the history of Bacillus subtilis genetics. The development of B. subtilis as a bacterial model system began over 60 years ago with the pioneering mutagenesis studies of Burkholder & Giles (1947). Strain 168, a tryptophan auxotrophic mutant isolated in those experiments, was subsequently found to be naturally competent for genetic transformation (Spizizen, 1958). This discovery quickly spawned a research community focused on exploring the genetics and development of this Gram-positive sporeformer and on exploiting its biotechnological potential.In addition to strain 168, a handful of other Burkholder and Giles mutants were also preserved (Spizizen, 1984). One of them, strain 23, was a threonine auxotroph that can readily revert to prototrophy (D. R. Zeigler, unpublished results). Strain W23, believed to be one such revertant, was widely viewed as a 'wild-type' counterpart to strain 168. For several years, W23 served as a 'universal donor' and 168 derivatives as 'universal recipients' for strain construction and genetic mapping (Anagnostopoulos & Spizizen, 1961;Nester & Lederberg, 1961). Evidence gradually accumulated, however, that W23 and 168 were fundamentally different in cell wall composition, resident prophages and genome content (Zeigler et al., 2008). It is now clear that 168 is closely related to -and probably a descendant of -the B. subtilis Marburg strain, which is stocked in the American Type Culture Collection (ATCC) as 6051 T and in the National Collection of Industrial, Marine and Food Bacteria (NCIMB) collection as 3610 T (Srivatsan et al., 2008; Zeigler et al., 2008). It is equally clear that W23 must have arisen from an independent isolate, although its exact origin has remained a mystery (Hemphill & Whiteley, 1975).Strain W23 continues to have relevance for the B. subtilis research community. For example, its c...

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Relationship of Bacillus amyloliquefaciens clades associated with strains DSM 7T and FZB42T: a proposal for Bacillus amyloliquefaciens subsp. amyloliquefaciens subsp. nov. and Bacillus amyloliquefaciens subsp. plantarum subsp. nov. based on complete genome sequence comparisons

Cited by 259 publications

References 53 publications

Bacillus velezensis is not a later heterotypic synonym of Bacillus amyloliquefaciens; Bacillus methylotrophicus, Bacillus amyloliquefaciens subsp. plantarum and ‘Bacillus oryzicola’ are later heterotypic synonyms of Bacillus velezensis based on phylogenomics

Bacillus velezensis is not a later heterotypic synonym of Bacillus amyloliquefaciens; Bacillus methylotrophicus, Bacillus amyloliquefaciens subsp. plantarum and ‘Bacillus oryzicola’ are later heterotypic synonyms of Bacillus velezensis based on phylogenomics

Bacillus nakamurai sp. nov., a black-pigment-producing strain

The genome sequence of Bacillus subtilis subsp. spizizenii W23: insights into speciation within the B. subtilis complex and into the history of B. subtilis genetics

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