Leptospiral c-di-AMP-binding protein regulates potassium ion transport
10.3760/cma.j.cn112309-20230202-00018
- VernacularTitle:钩端螺旋体c-di-AMP结合蛋白调控钾离子转运
- Author:
Xinjue DAI
1
;
Liqin YAO
;
Jing CHEN
;
Weilin HU
Author Information
1. 江苏省宜兴市中医医院中心实验室,宜兴 214200
- Keywords:
Leptospira;
c-di-AMP;
Potassium ion transport
- From:
Chinese Journal of Microbiology and Immunology
2023;43(6):451-457
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate whether KtrA was a binding protein of c-di-AMP, the second messenger in Leptospira, and to explore the function and regulatory mechanism of the c-di-AMP-KtrA/B system. Methods:KtrA gene was amplified by PCR and cloned into pET42a plasmid to construct the pET42a ktrA prokaryotic expression vector. Then the vector was transferred into E. coli BL21DE3 to construct an engineering bacterium E. coli BL21DE3 pET42a-ktrA for the expression of recombinant KtrA (rKtrA). The expressed rKtrA was purified by affinity chromatography. BIAcore technology was used to detect the binding ability of rKtrA to c-di-AMP. Bacterial two-hybrid analysis was used to analyze the interaction between KtrA and KtrB in the leptospiral Ktr system with or without exogenetic c-di-AMP. The above genes were then complemented into the potassium transport-deficient E. coli mutants to analyze the function of the c-di-AMP-KtrA/B pathway. Results:An prokaryotic engineering bacterium for the expression of ktrA gene of Leptospira was constructed successfully. The purified rKtrA could specifically bind to c-di-AMP. There was interaction between KtrA and KtrB, but the interaction could be dissociated by c-di-AMP. The KtrA/B system was involved in potassium ion uptake and it was negatively regulated by c-di-AMP. Conclusions:Leptospiral KtrA was a c-di-AMP-binding protein and the c-di-AMP-KtrA/B system was involved in potassium ion transport.
