The prediction and assessment of environmental pollution by arsenic are important preconditions of advocating environmental protection and human health risk assessment.A yellow fluorescent protein-based whole-cell biosensor for the detection of arsenite and arsenate was constructed and tested.An arsenic-resistant promoter and the regulatory gene arsR were obtained by PCR from the genome of Escherichia coli DH5α,and phiYFP was introduced into E.coli DH5α as a reporter gene to construct an arsenic-resistant whole-cell biosensor(WCB-11) in which phiYFP was expressed well for the first time.Experimental results demonstrated that the biosensor has a good response to arsenic and the expression of phiYFP.When strain WCB-11 was exposed to As 3+ and As 5+,the expression of yellow fluorescence was time-dependent and dose-dependent.This engineered construct is expected to become established as an inexpensive and convenient method for the detection of arsenic in the field.
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机译:sofrimentop2íquicopotrabalhoeestratégiasdefensivasdosoperáriosterceirizadosdaconstruçãocivilpsychicic suffering in work and prevention of defense of strategy of construction of construction of construction construction
