Journal article

A polyphasic approach leads to seven new species of the cellulose-decomposing genus Sorangium, Sorangium ambruticinum sp nov., Sorangium arenae sp nov., Sorangium bulgaricum sp nov., Sorangium dawidii sp nov., Sorangium kenyense sp nov., Sorangium orientale sp nov and Sorangium reichenbachii sp nov.


Authors listMohr, KI; Wolf, C; Nübel, U; Szafranska, AK; Steglich, M; Hennessen, F; Gemperlein, K; Kämpfer, P; Martin, K; Müller, R; Wink, J

Publication year2018

Pages3576-3586

JournalInternational Journal of Systematic and Evolutionary Microbiology

Volume number68

Issue number11

ISSN1466-5026

Open access statusBronze

DOI Linkhttps://doi.org/10.1099/ijsem.0.003034

PublisherMicrobiology Society


Abstract
Seventy-three strains of Sorangium have been isolated from soil samples collected from all over the world. The strains were characterized using a polyphasic approach and phenotypic, genotypic and chemotype analyses clarified their taxonomic relationships. 16S rRNA, xynB1, groEL1, matrix-assisted laser desorption/ioniziation time-of-flight mass spectrometry and API-ZYM analyses were conducted. In addition, from selected representative strains, fatty acids, quinones and phospholipids were analysed. In silico DNA-DNA hybridization and DNA-DNA hybridization against the current type species of Sorangium cellulosum strain Soce 1871(T) (DSM 14627(T)) completed the analyses. Finally, our study revealed seven new species of Sorangium: Sorangium ambruticinum (Soce 176(T); DSM 53252(T), NCCB 100639(T), sequence accession number ERS2488998), Sorangium arenae (Soce 1078(T); DSM 105768(T), NCCB 100643(T), ERS2489002), Sorangium bulgaricum (Soce 321(T); DSM 53339(T), NCCB 100640(T), ERS2488999), Sorangium dawidii (Soce 362T; DSM 105767(T), NCCB 100641(T), ERS2489000), Sorangium kenyense (Soce 375(T); DSM 105741(T), NCCB 100642(T), ERS2489001), Sorangium orientale (Soce GT47(T); DSM 105742(T), NCCB 100638(T), ERS2501484) and Sorangium reichenbachii (Soce 1828(T); DSM 105769(T), NCCB 100644(T), ERS2489003).



Citation Styles

Harvard Citation styleMohr, K., Wolf, C., Nübel, U., Szafranska, A., Steglich, M., Hennessen, F., et al. (2018) A polyphasic approach leads to seven new species of the cellulose-decomposing genus Sorangium, Sorangium ambruticinum sp nov., Sorangium arenae sp nov., Sorangium bulgaricum sp nov., Sorangium dawidii sp nov., Sorangium kenyense sp nov., Sorangium orientale sp nov and Sorangium reichenbachii sp nov., International Journal of Systematic and Evolutionary Microbiology, 68(11), pp. 3576-3586. https://doi.org/10.1099/ijsem.0.003034

APA Citation styleMohr, K., Wolf, C., Nübel, U., Szafranska, A., Steglich, M., Hennessen, F., Gemperlein, K., Kämpfer, P., Martin, K., Müller, R., & Wink, J. (2018). A polyphasic approach leads to seven new species of the cellulose-decomposing genus Sorangium, Sorangium ambruticinum sp nov., Sorangium arenae sp nov., Sorangium bulgaricum sp nov., Sorangium dawidii sp nov., Sorangium kenyense sp nov., Sorangium orientale sp nov and Sorangium reichenbachii sp nov.. International Journal of Systematic and Evolutionary Microbiology. 68(11), 3576-3586. https://doi.org/10.1099/ijsem.0.003034



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