Sensor Domain of Histidine Kinase VxrA of Vibrio cholerae: Hairpin-Swapped Dimer and Its Conformational Change | Zendy

Kemin Tan | Zendy; Jennifer K. Teschler | Zendy; Ruiying Wu | Zendy; R. Jedrzejczak | Zendy; Min Zhou | Zendy; L. Shuvalova | Zendy; M. Endres | Zendy; L. Welk | Zendy; Keehwan Kwon | Zendy; W.F. Anderson | Zendy; K.J.F. Satchell | Zendy; Fitnat H. Yildiz | Zendy; A. Joachimiak | Zendy

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Sensor Domain of Histidine Kinase VxrA of Vibrio cholerae: Hairpin-Swapped Dimer and Its Conformational Change

Author(s) -

Kemin Tan,

Jennifer K. Teschler,

Ruiying Wu,

R. Jedrzejczak,

Min Zhou,

L. Shuvalova,

M. Endres,

L. Welk,

Keehwan Kwon,

W.F. Anderson,

K.J.F. Satchell,

Fitnat H. Yildiz,

A. Joachimiak

Publication year - 2021

Publication title -

journal of bacteriology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.652

H-Index - 246

eISSN - 1067-8832

pISSN - 0021-9193

DOI - 10.1128/jb.00643-20

Subject(s) - vibrio cholerae , biology , histidine kinase , conformational change , signal transduction , histidine , cholera toxin , dimer , microbiology and biotechnology , transduction (biophysics) , domain (mathematical analysis) , cholera , biophysics , biochemistry , enzyme , genetics , bacteria , physics , mathematical analysis , mathematics , nuclear magnetic resonance

V. cholerae has a dynamic life cycle, which requires rapid adaptation to changing external conditions. Two-component signal transduction (TCS) systems allowV. cholerae to sense and respond to these environmental changes.

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