Literature DB >> 12732545

Homologous npdGI genes in 2,4-dinitrophenol- and 4-nitrophenol-degrading Rhodococcus spp.

Gesche Heiss1, Natalie Trachtmann, Yoshikatsu Abe, Masahiro Takeo, Hans-Joachim Knackmuss.   

Abstract

Rhodococcus (opacus) erythropolis HL PM-1 grows on 2,4,6-trinitrophenol or 2,4-dinitrophenol (2,4-DNP) as a sole nitrogen source. The NADPH-dependent F(420) reductase (NDFR; encoded by npdG) and the hydride transferase II (HTII; encoded by npdI) of the strain were previously shown to convert both nitrophenols to their respective hydride Meisenheimer complexes. In the present study, npdG and npdI were amplified from six 2,4-DNP degrading Rhodococcus spp. The genes showed sequence similarities of 86 to 99% to the respective npd genes of strain HL PM-1. Heterologous expression of the npdG and npdI genes showed that they were involved in 2,4-DNP degradation. Sequence analyses of both the NDFRs and the HTIIs revealed conserved domains which may be involved in binding of NADPH or F(420). Phylogenetic analyses of the NDFRs showed that they represent a new group in the family of F(420)-dependent NADPH reductases. Phylogenetic analyses of the HTIIs revealed that they form an additional group in the family of F(420)-dependent glucose-6-phosphate dehydrogenases and F(420)-dependent N(5),N(10)-methylenetetrahydromethanopterin reductases. Thus, the NDFRs and the HTIIs may each represent a novel group of F(420)-dependent enzymes involved in catabolism.

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Year:  2003        PMID: 12732545      PMCID: PMC154519          DOI: 10.1128/AEM.69.5.2748-2754.2003

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  32 in total

1.  Development of a host-vector system in a Rhodococcus strain and its use for expression of the cloned nitrile hydratase gene cluster.

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Journal:  J Gen Microbiol       Date:  1992-05

2.  Function of coenzyme F420 in aerobic catabolism of 2,4, 6-trinitrophenol and 2,4-dinitrophenol by Nocardioides simplex FJ2-1A.

Authors:  S Ebert; P G Rieger; H J Knackmuss
Journal:  J Bacteriol       Date:  1999-05       Impact factor: 3.490

3.  Novel vectors for co-expression of two proteins in E. coli.

Authors:  N Kholod; T Mustelin
Journal:  Biotechniques       Date:  2001-08       Impact factor: 1.993

4.  Mineralization of 2,4,6-trinitrophenol (picric acid): characterization and phylogenetic identification of microbial strains.

Authors:  J Rajan; K Valli; R E Perkins; F S Sariaslani; S M Barns; A L Reysenbach; S Rehm; M Ehringer; N R Pace
Journal:  J Ind Microbiol       Date:  1996-05

5.  Characterization of catechol catabolic genes from Rhodococcus erythropolis 1CP.

Authors:  D Eulberg; L A Golovleva; M Schlömann
Journal:  J Bacteriol       Date:  1997-01       Impact factor: 3.490

6.  Microbial transformation of nitroaromatic compounds under anaerobic conditions.

Authors:  T Gorontzy; J Küver; K H Blotevogel
Journal:  J Gen Microbiol       Date:  1993-06

7.  Degradation and induction specificity in actinomycetes that degrade p-nitrophenol.

Authors:  L F Hanne; L L Kirk; S M Appel; A D Narayan; K K Bains
Journal:  Appl Environ Microbiol       Date:  1993-10       Impact factor: 4.792

8.  Plasmid-borne resistance to arsenate, arsenite, cadmium, and chloramphenicol in a Rhodococcus species.

Authors:  E R Dabbs; G J Sole
Journal:  Mol Gen Genet       Date:  1988-01

9.  Characterization of an 8-hydroxy-5-deazaflavin:NADPH oxidoreductase from Streptomyces griseus.

Authors:  A P Eker; J K Hessels; R Meerwaldt
Journal:  Biochim Biophys Acta       Date:  1989-01-27

10.  Initial hydrogenation during catabolism of picric acid by Rhodococcus erythropolis HL 24-2.

Authors:  H Lenke; H J Knackmuss
Journal:  Appl Environ Microbiol       Date:  1992-09       Impact factor: 4.792
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  7 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2005-07-25       Impact factor: 11.205

2.  Mechanism of 4-nitrophenol oxidation in Rhodococcus sp. Strain PN1: characterization of the two-component 4-nitrophenol hydroxylase and regulation of its expression.

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Journal:  J Bacteriol       Date:  2008-09-19       Impact factor: 3.490

3.  Development of a transferable bimolecular fluorescence complementation system for the investigation of interactions between poly(3-hydroxybutyrate) granule-associated proteins in Gram-negative bacteria.

Authors:  Daniel Pfeiffer; Dieter Jendrossek
Journal:  Appl Environ Microbiol       Date:  2013-02-22       Impact factor: 4.792

Review 4.  Physiology, Biochemistry, and Applications of F420- and Fo-Dependent Redox Reactions.

Authors:  Chris Greening; F Hafna Ahmed; A Elaaf Mohamed; Brendon M Lee; Gunjan Pandey; Andrew C Warden; Colin Scott; John G Oakeshott; Matthew C Taylor; Colin J Jackson
Journal:  Microbiol Mol Biol Rev       Date:  2016-04-27       Impact factor: 11.056

5.  Microbial Consortium Associated with the Antarctic Marine Ciliate Euplotes focardii: An Investigation from Genomic Sequences.

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Journal:  Microb Ecol       Date:  2015-02-24       Impact factor: 4.552

6.  Mycobacterial F420H2-Dependent Reductases Promiscuously Reduce Diverse Compounds through a Common Mechanism.

Authors:  Chris Greening; Thanavit Jirapanjawat; Shahana Afroze; Blair Ney; Colin Scott; Gunjan Pandey; Brendon M Lee; Robyn J Russell; Colin J Jackson; John G Oakeshott; Matthew C Taylor; Andrew C Warden
Journal:  Front Microbiol       Date:  2017-05-31       Impact factor: 5.640

7.  Discovery and characterization of an F420-dependent glucose-6-phosphate dehydrogenase (Rh-FGD1) from Rhodococcus jostii RHA1.

Authors:  Quoc-Thai Nguyen; Gianluca Trinco; Claudia Binda; Andrea Mattevi; Marco W Fraaije
Journal:  Appl Microbiol Biotechnol       Date:  2016-12-13       Impact factor: 4.813
  7 in total

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