A novel isolated Terrabacter-like bacterium can mineralize 2-aminopyrimidine, the principal metabolite of microbial sulfadiazine degradation-Reference-Cited by-同舟云学术

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A novel isolated Terrabacter-like bacterium can mineralize 2-aminopyrimidine, the principal metabolite of microbial sulfadiazine degradation

Published:2015-02-26 Issue:2 Volume:26 Page:139-150
ISSN:0923-9820
Container-title:Biodegradation
language:en
Short-container-title:Biodegradation

Author:

Tappe Wolfgang,Hofmann Diana,Disko Ulrich,Koeppchen Stephan,Kummer Sirgit,Vereecken Harry

Publisher

Springer Science and Business Media LLC

Subject

Pollution,Environmental Chemistry,Bioengineering,Microbiology,Environmental Engineering

Link

http://link.springer.com/content/pdf/10.1007/s10532-015-9722-9.pdf

Reference33 articles.

1. Aislabie J, Davison D, Boul HL, Franzmann PD, Jardine DR, Karuso P (1999) Isolation of Terrabacter sp. Strain DDE-1, which metabolizes 1,1-dichloro-2,2-bis(4-chlorophenyl)ethylene when induced with biphenyl. Appl Environ Microbiol 65:5607–5611

2. Bouju H, Ricken B, Beffa T, Corvini PFX, Kolvenbach BA (2012) Isolation of bacterial strains capable of sulfamethoxazole mineralization from an acclimated membrane bioreactor. Appl Environ Microbiol 78:277–279

3. Brown EG, Turan Y (1996) Lathyrine biosynthesis and the origin of the precursor 2-amino-4-carboxypyrimidine in Lathyrus tingitanus. Phytochemistry 43:1029–1031

4. Collins MD, Dorsch M, Stackebrandt E (1989) Transfer of Pimelobacter tumescens to Terrabacter gen. nov. as Terrabacter tumescens comb. nov. and of Pimelobacter jensenii to Nocardioides as Nocardioides jensenii comb. nov. Int J Syst Bacteriol 39:1–6

5. Cornish-Bowden A (2013) Curbing the excesses of low demand. Nature 500:157–158

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