Protein kinases play central roles in the survival of Mycobacterium tuberculosis within host. Here we report the individual high-resolution crystal structures of the sensor domain (in both monomer and dimer forms) and the kinase domain of PknI, a transmembrane protein member of the serine/threonine protein kinases (STPKs) family. PknI is the first STPK identified whose sensor domain exists in a monomer-dimer equilibrium. Inspection of the two structures of the sensor domain (PknI_SD) revealed conformational changes upon dimerization, with an arm region of critical importance for dimer formation identified. Rapamycin-induced dimerization of unphosphorylated fusions of PknI juxtamembrane and the kinase domain, intended to mimic the dimerization effect presumably imposed by PknI_SD, was observed to be able to activate auto-phosphorylation activity of the kinase domain. In vivo experiments using an M. bovis model suggested PknI functions as a dimer in the regulation of M. tuberculosis growth.
Keywords: Mycobacterium tuberculosis; PknI; Ser/Thr protein kinase; crystal structure; sensor domain.
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