To obtain experimental support for the dichlorvos-degrading ability of the phyllosphere microbial community, the microorganisms were eluted from rape leaves and were shown to degrade about 54.7% of the added dichlorvos by HPLC analysis after incubation for 2 days at 30 °C (data not shown). Six bacterial isolates displaying
a capacity to degrade dichlorvos in the rape phyllosphere were obtained. These isolates were labelled M3, N7, N8, N13, N16 and N28, and their corresponding GenBank accession numbers are GU086437, GU086451, GU086416, GU086421, GU086419 and GU086430. Sequence alignment showed that these 16S rRNA genes were most similar to those of members of the genera Pseudomonas, Xanthomonas, Sphingomonas, Acidovorax, Agrobacterium and Chryseobacterium, respectively. The dichlorvos-degrading capacities Trichostatin A of the individual bacterial species were assessed by HPLC analysis. Dichlorvos degradation efficiencies of the six bacteria were 11.5%, 70.0%, 78.7%, 52.6%, 66.4% and 25.2%, respectively. The contamination of surface and ground water by organophosphorus compounds as a result of its bulk utilization in agriculture may lead to toxicity in mammals, and ultimately
in humans (Madhaiyan et al., 2006; Tang et al., 2009). Therefore, it is essential to remove organophosphorus compounds Metformin research buy from the environment. Here we use rape plants as the model crop to screen for optimal bacterial candidates for the biodegradation of an organophosphorus pesticide (dichlorvos). The result showed that more bacterial species were found on the dichlorvos-treated sample than on the control samples without dichlorvos treatment on day 1. It is well known that extreme fluctuations in the physicochemical environment of the phyllosphere over a short time scale can select for bacterial species that have unusual and versatile traits that make them fit to colonize the plant surfaces (Lindow & Brandl, 2003). Therefore, some organisms Cobimetinib may respond
to the spraying of dichlorvos by an increase in their population density and using the dichlorvos as a nutrient source (Walter et al., 2007). From the DGGE profiles, bands A1, A3, A4, A5, A6, A8 and A9 emerged on day 1 in the treated samples, as shown in Fig. 1. As a consequence, four dichlorvos-degrading strains from the bacterial community on rape leaves, designated N7, M3, N13 and N28 and corresponding to A1, A3, A6 and A8, respectively, were isolated and identified. Two additional isolated strains, designated N8 and N16 and corresponding to bands A16 and A18, were present in both the control and the dichlorvos-treated samples. The DNA sequencing results for the first four bacterial strains showed that their sequences were similar to those of the newly observed bacterial species detected by the DGGE assay, demonstrating that the dichlorvos-degrading bacteria increased quickly soon after spraying.
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