Juquan Jiang

Publications (3)9.19 Total impact

• Article: Identification of important charged residues for alkali cation exchange or pH regulation of NhaH, a Na(+)/H(+) antiporter of Halobacillus dabanensis.

  Juquan Jiang, Lei Wang, Yajie Zou, Weidong Lu, Baisuo Zhao, Bo Zhang, Susheng Yang, Lifu Yang
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  ABSTRACT: NhaH is a novel Na(+)/H(+)antiporter identified from the moderate halophile Halobacillus dabanensis. In this study, six conserved charged residues located in the putative transmembrane segments (TMS) including TMSV, TMSVI, TMSVIII and TMSXI of NhaH as well as two His residues in Loop III were replaced by site-directed mutagenesis for the identification of their potential roles in the antiport activity and pH regulation. Substitutions D137A, D166A and R325A caused a complete loss of Na(+)(Li(+))/H(+) antiport activity, revealing that D137, D166 and R325 are indispensable for the antiport activity. Substitution D137E led to a significant increase of the apparent Km values for Na(+) and Li(+) without affecting the changes of pH profile, confirming that D137 plays vital roles in alkali cation binding/translocation. Substitution D166E resulted in not only a significant increase of the apparent Km values for Na(+) and Li(+) but also an alkaline shift of pH profile, suggesting that D166 is involved in alkali cation binding/translocation as well as H(+) binding or pH regulation. Substitutions E161N, D224A and D224E caused a significant increase of Km for Na(+) and Li(+), indicating that E161 and D224 partly contribute to alkali cation binding/translocation. Substitution E229K caused an over 50% elevation of the apparent Km for Li(+), without affecting that for Na(+), suggesting that E229 may be mainly responsible for Li(+)binding/translocation. Substitutions H87A and H88A resulted in an acidic shift of pH profile without an effect on Km for Na(+) and Li(+), indicating that H87 and H88 are involved in H(+) binding or pH regulation.
  Biochimica et Biophysica Acta 11/2012; · 4.66 Impact Factor
• Article: The pha2 gene cluster involved in Na+ resistance and adaption to alkaline pH in Sinorhizobium fredii RT19 encodes a monovalent cation/proton antiporter.

  Lifu Yang, Juquan Jiang, Wei Wei, Bo Zhang, Lei Wang, Susheng Yang
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  ABSTRACT: Sinorhizobium fredii RT19 can tolerate up to 0.6 M NaCl, whereas all its pha2-disrupted mutants, constructed by Tn5 mutagenesis, failed to grow in even the presence of 0.1 M NaCl. No growth difference was detected in pha2 mutants at a pH<7.5 in the presence or absence of K+, but growth reduction was observed in the presence of K+ when pH>7.5. The pha2 gene cluster was able to completely restore the growth of the pha2 mutants of S. fredii RT19 in 0.6 M NaCl. Measurement of monovalent cation intracellular content suggested that pha2 was involved in both Na+ (Li+) and K+ efflux. The pha2 mutants exhibited K+/H+, but no apparent Na+(Li+)/H+ antiporter activity in everted membrane vesicles. Taken together, these results indicated that the pha2 cluster of S. fredii RT19 encodes a monovalent cation/proton antiporter involved in resistance to Na+ and adaption to pH, which was very different from the pha1 cluster of Sinorhizobium meliloti, which encodes a K+/H+ antiporter.
  FEMS Microbiology Letters 09/2006; 262(2):172-7. · 2.04 Impact Factor
• Article: A primary sodium pump gene of the moderate halophile Halobacillus dabanensis exhibits secondary antiporter properties.

  Lifu Yang, Juquan Jiang, Bo Zhang, Baisuo Zhao, Lei Wang, Su Sheng Yang
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  ABSTRACT: The primary sodium pump has been proved to be involved in Na(+) extrusion of bacteria. In our present study, a novel gene encoding a putative primary sodium pump was cloned from chromosomal DNA of moderate halophile Halobacillus dabanensis D-8 by functional complementation, which expression resulted in the growth of antiporter-deficient Escherichia coli strain KNabc in the presence of 0.2 M NaCl. The gene was sequenced and designated nap. The deduced amino acid sequence of Nap has 56% identity to NADH dehydrogenase of Bacillus cereus and 55% to NADH oxidase of Bacillus halodurans C-125. E. coli KNabc carrying nap exhibited resistance to uncoupler CCCP (carbonyl-cyanide m-chlorophenylhydrazone). Everted membrane vesicles prepared from E. coli KNabc carrying nap exhibited secondary Na(+)/H(+) antiporter activity, and nap also supported the growth of respiratory-deficient E. coli ANN0222 lacking NADH dehydrogenase. Based on these results, we proposed that Nap possessed both characteristics of secondary Na(+)/H(+) antiporter and primary sodium pump.
  Biochemical and Biophysical Research Communications 08/2006; 346(2):612-7. · 2.48 Impact Factor