Modification of CusSR bacterial two-component systems by the introduction of an inducible positive feedback loop.

Ravikumar, Sambandam; Pham, Van; Lee, Seung; Yoo, Ik-keun; Hong, Soon

The CusSR two-component system (TCS) is a copper-sensing apparatus of E. coli that is responsible for regulating the copper-related homeostatic system. The dynamic characteristics of the CusSR network were modified by the introduction of a positive feedback loop. To construct the feedback loop, the CusR, which is activated by the cusC promoter, was cloned downstream of the cusC promoter and reporter protein. The feedback loop system, once activated by environmental copper, triggers the activation of the cusC promoter, which results in the amplification of a reporter protein and CusR expression. The threshold copper concentration for the activation of the modified CusSR TCS network was lowered from 2,476.5 μg/l to 247.7 μg/l, which indicates a tenfold increase in sensitivity. The intensity of the output signal was increased twofold, and was maintained for 16 h. The strategy proposed in this study can also be applied to modify the dynamic characteristics of other TCSs.

ESCHERICHIA coli; COPPER; INDUSTRIAL microbiology; BIOTECHNOLOGY; CATALYST supports; HOMEOSTASIS; ACTIVATION (Chemistry); BACTERIA

Journal of Industrial Microbiology & Biotechnology, 2012, Vol 39, Issue 6, p861

1367-5435

Academic Journal

10.1007/s10295-012-1096-y