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Citation
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HERO ID
2966073
Reference Type
Journal Article
Title
[Sequence analysis of 16S rDNA and pmoCAB gene cluster of trichloroethylene-degrading methanotroph]
Author(s)
Zhang, Y; Chen, H; Gao, Y; Xing, Z; Zhao, T
Year
2014
Is Peer Reviewed?
1
Journal
Shengwu Gongcheng Xuebao / Chinese Journal of Biotechnology
ISSN:
1000-3061
Volume
30
Issue
12
Page Numbers
1912-1923
Language
Chinese
PMID
26020084
Abstract
Methanotrophs could degrade methane and various chlorinated hydrocarbons. The analysis on methane monooxygenase gene cluster sequence would help to understand its catalytic mechanism and enhance the application in pollutants biodegradation. The methanotrophs was enriched and isolated with methane as the sole carbon source in the nitrate mineral salt medium. Then, five chlorinated hydrocarbons were selected as cometabolic substrates to study the biodegradation. The phylogenetic tree of 16S rDNA using MEGE5.05 software was constructed to identify the methanotroph strain. The pmoCAB gene cluster encoding particulate methane monooxygenase (pMMO) was amplified by semi-nested PCR in segments. ExPASy was performed to analyze theoretical molecular weight of the three pMMO subunits. As a result, a strain of methanotroph was isolated. The phylogenetic analysis indicated that the strain belongs to a species of Methylocystis, and it was named as Methylocystis sp. JTC3. The degradation rate of trichloroethylene (TCE) reached 93.79% when its initial concentration was 15.64 μmol/L after 5 days. We obtained the pmoCAB gene cluster of 3 227 bp including pmoC gene of 771 bp, pmoA gene of 759 bp, pmoB gene of 1 260 bp and two noncoding sequences in the middle by semi-nested PCR, T-A cloning and sequencing. The theoretical molecular weight of their corresponding gamma, beta and alpha subunit were 29.1 kDa, 28.6 kDa and 45.6 kDa respectively analyzed using ExPASy tool. The pmoCAB gene cluster of JTC3 was highly identical with that of Methylocystis sp. strain M analyzed by Blast, and pmoA sequences is more conservative than pmoC and pmoB. Finally, Methylocystis sp. JTC3 could degrade TCE efficiently. And the detailed analysis of pmoCAB from Methylocystis sp. JTC3 laid a solid foundation to further study its active sites features and its selectivity to chlorinated hydrocarbon.
Tags
IRIS
•
Nitrate/Nitrite
Supplemental LitSearch Update 1600-2015
PubMed
New to project
OPPT REs
•
OPPT_Trichloroethylene (TCE)_F. Human Health
Total – title/abstract screening
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