Sphingopyxis fribergensis sp. nov., a soil bacterium with the ability to degrade styrene and phenylacetic acid

Oelschlägel M, Rückert C, Kalinowski J, Schmidt G, Schlömann M, Tischler D (2015)
International journal of systematic and evolutionary microbiology 65(Part 9): 3008-3015.

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Zeitschriftenaufsatz | Veröffentlicht | Englisch
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Abstract / Bemerkung
: The strain Kp5.2T is an aerobic and Gram-negative soil bacterium which was isolated in Freiberg, Saxony, Germany. The cells are motile and rod-shaped. An optimal growth was observed between temperatures of 20-30°C. The fatty acid composition of strain Kp5.2T comprises mainly C18:1ω7c and C16:1ω7c/iso-C15:0 2OH. The major respiratory quinone of strain Kp5.2T is Q-10. The major polar lipids of strain Kp5.2T are phosphatidylethanolamine, diphosphatidylglycerol, phosphatidylglycerol, phosphatidylcholine, and sphingoglycolipid. The G+C content of the genomic DNA is 63.9%. The sequencing of the 16S rRNA gene of strain Kp5.2T allowed the classification into the family Sphingomonadaceae and showed the highest affinity to the genus Sphingopyxis with the species Sphingopyxis italica SC13E-S71T (99.15% similarity), Sphingopyxis panaciterrae Gsoil 124T (98.96%), Sphingopyxis chilensis S37T (98.90%), and Sphingopyxis bauzanensis BZ30T (98.51%) as the nearest neighbors. DNA-DNA hybridization and further characterization allowed that strain Kp5.2T can be considered as a novel species of the genus Sphingopyxis. Hence, Sphingopyxis fribergensis sp. nov. is proposed with the type strain Kp5.2T (=DSM 28731T, =LMG 28478T).
Erscheinungsjahr
Zeitschriftentitel
International journal of systematic and evolutionary microbiology
Band
65
Zeitschriftennummer
Part 9
Seite
3008-3015
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Oelschlägel M, Rückert C, Kalinowski J, Schmidt G, Schlömann M, Tischler D. Sphingopyxis fribergensis sp. nov., a soil bacterium with the ability to degrade styrene and phenylacetic acid. International journal of systematic and evolutionary microbiology. 2015;65(Part 9):3008-3015.
Oelschlägel, M., Rückert, C., Kalinowski, J., Schmidt, G., Schlömann, M., & Tischler, D. (2015). Sphingopyxis fribergensis sp. nov., a soil bacterium with the ability to degrade styrene and phenylacetic acid. International journal of systematic and evolutionary microbiology, 65(Part 9), 3008-3015. doi:10.1099/ijs.0.000371
Oelschlägel, M., Rückert, C., Kalinowski, J., Schmidt, G., Schlömann, M., and Tischler, D. (2015). Sphingopyxis fribergensis sp. nov., a soil bacterium with the ability to degrade styrene and phenylacetic acid. International journal of systematic and evolutionary microbiology 65, 3008-3015.
Oelschlägel, M., et al., 2015. Sphingopyxis fribergensis sp. nov., a soil bacterium with the ability to degrade styrene and phenylacetic acid. International journal of systematic and evolutionary microbiology, 65(Part 9), p 3008-3015.
M. Oelschlägel, et al., “Sphingopyxis fribergensis sp. nov., a soil bacterium with the ability to degrade styrene and phenylacetic acid”, International journal of systematic and evolutionary microbiology, vol. 65, 2015, pp. 3008-3015.
Oelschlägel, M., Rückert, C., Kalinowski, J., Schmidt, G., Schlömann, M., Tischler, D.: Sphingopyxis fribergensis sp. nov., a soil bacterium with the ability to degrade styrene and phenylacetic acid. International journal of systematic and evolutionary microbiology. 65, 3008-3015 (2015).
Oelschlägel, Michel, Rückert, Christian, Kalinowski, Jörn, Schmidt, Gert, Schlömann, Michael, and Tischler, Dirk. “Sphingopyxis fribergensis sp. nov., a soil bacterium with the ability to degrade styrene and phenylacetic acid”. International journal of systematic and evolutionary microbiology 65.Part 9 (2015): 3008-3015.

3 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Heterologous production of different styrene oxide isomerases for the highly efficient synthesis of phenylacetaldehyde.
Oelschlägel M, Richter L, Stuhr A, Hofmann S, Schlömann M., J Biotechnol 252(), 2017
PMID: 28472670
Sphingopyxis solisilvae sp. nov., isolated from forest soil.
Chaudhary DK, Dahal RH, Kim J., Int J Syst Evol Microbiol 67(6), 2017
PMID: 28613148

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