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1.

Novel insight into the genetic context of the cadAB genes from a 4-chloro-2-methylphenoxyacetic acid-degrading Sphingomonas.

Nielsen TK, Xu Z, Gözdereliler E, Aamand J, Hansen LH, Sørensen SR.

PLoS One. 2013 Dec 31;8(12):e83346. doi: 10.1371/journal.pone.0083346. eCollection 2013.

2.

Genetic analysis of phenoxyalkanoic acid degradation in Sphingomonas herbicidovorans MH.

Müller TA, Byrde SM, Werlen C, van der Meer JR, Kohler HP.

Appl Environ Microbiol. 2004 Oct;70(10):6066-75.

3.

A new concept for reduction of diffuse contamination by simultaneous application of pesticide and pesticide-degrading microorganisms.

Onneby K, Jonsson A, Stenström J.

Biodegradation. 2010 Feb;21(1):21-9. doi: 10.1007/s10532-009-9278-7. Epub 2009 Jun 26.

PMID:
19557524
4.

Root nodule Bradyrhizobium spp. harbor tfdAalpha and cadA, homologous with genes encoding 2,4-dichlorophenoxyacetic acid-degrading proteins.

Itoh K, Tashiro Y, Uobe K, Kamagata Y, Suyama K, Yamamoto H.

Appl Environ Microbiol. 2004 Apr;70(4):2110-8.

5.

Consumers of 4-chloro-2-methylphenoxyacetic acid from agricultural soil and drilosphere harbor cadA, r/sdpA, and tfdA-like gene encoding oxygenases.

Liu YJ, Liu SJ, Drake HL, Horn MA.

FEMS Microbiol Ecol. 2013 Oct;86(1):114-29. doi: 10.1111/1574-6941.12144. Epub 2013 May 23.

6.

Comparison of 16S rRNA gene phylogeny and functional tfdA gene distribution in thirty-one different 2,4-dichlorophenoxyacetic acid and 4-chloro-2-methylphenoxyacetic acid degraders.

Baelum J, Jacobsen CS, Holben WE.

Syst Appl Microbiol. 2010 Mar;33(2):67-70. doi: 10.1016/j.syapm.2010.01.001. Epub 2010 Mar 5.

PMID:
20206455
7.

Succession of bacterial and fungal 4-chloro-2-methylphenoxyacetic acid degraders at the soil-litter interface.

Ditterich F, Poll C, Pagel H, Babin D, Smalla K, Horn MA, Streck T, Kandeler E.

FEMS Microbiol Ecol. 2013 Oct;86(1):85-100. doi: 10.1111/1574-6941.12131. Epub 2013 May 2.

8.

Centimetre-scale vertical variability of phenoxy acid herbicide mineralization potential in aquifer sediment relates to the abundance of tfdA genes.

Batıoğlu-Pazarbaşı M, Bælum J, Johnsen AR, Sørensen SR, Albrechtsen HJ, Aamand J.

FEMS Microbiol Ecol. 2012 May;80(2):331-41.

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Degradation of 4-chloro-2-methylphenoxyacetic acid in top- and subsoil is quantitatively linked to the class III tfdA gene.

Baelum J, Henriksen T, Hansen HC, Jacobsen CS.

Appl Environ Microbiol. 2006 Feb;72(2):1476-86. Erratum in: Appl Environ Microbiol. 2006 May;72(5):3803.

12.

Widespread occurrence of the tfd-II genes in soil bacteria revealed by nucleotide sequence analysis of 2,4-dichlorophenoxyacetic acid degradative plasmids pDB1 and p712.

Kim DU, Kim MS, Lim JS, Ka JO.

Plasmid. 2013 May;69(3):243-8. doi: 10.1016/j.plasmid.2013.01.003. Epub 2013 Jan 29.

PMID:
23376020
13.
14.

Analysis of genes encoding the 2,4-dichlorophenoxyacetic acid-degrading enzyme from Sphingomonas agrestis 58-1.

Shimojo M, Kawakami M, Amada K.

J Biosci Bioeng. 2009 Jul;108(1):56-9. doi: 10.1016/j.jbiosc.2009.02.018.

PMID:
19577193
15.

A rapid method to screen degradation ability in chlorophenoxyalkanoic acid herbicide-degrading bacteria.

Smejkal CW, Vallaeys T, Burton SK, Lappin-Scott HM.

Lett Appl Microbiol. 2001 Apr;32(4):273-7.

PMID:
11298940
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Direct analysis of tfdA gene expression by indigenous bacteria in phenoxy acid amended agricultural soil.

Baelum J, Nicolaisen MH, Holben WE, Strobel BW, Sørensen J, Jacobsen CS.

ISME J. 2008 Jun;2(6):677-87. doi: 10.1038/ismej.2008.21. Epub 2008 Mar 20.

PMID:
18356824
19.

The earthworm Aporrectodea caliginosa stimulates abundance and activity of phenoxyalkanoic acid herbicide degraders.

Liu YJ, Zaprasis A, Liu SJ, Drake HL, Horn MA.

ISME J. 2011 Mar;5(3):473-85. doi: 10.1038/ismej.2010.140. Epub 2010 Aug 26.

20.

Novel 2,4-dichlorophenoxyacetic acid degradation genes from oligotrophic Bradyrhizobium sp. strain HW13 isolated from a pristine environment.

Kitagawa W, Takami S, Miyauchi K, Masai E, Kamagata Y, Tiedje JM, Fukuda M.

J Bacteriol. 2002 Jan;184(2):509-18.

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