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WD40 domain of RqkA regulates its kinase activity and role in extraordinary radioresistance of <i>D. radiodurans</i>

Dhirendra Kumar Sharma, Subhash C. Bihani, M. Quadir Siddiqui, Hari S. Misra, Yogendra S. Rajpurohit

2020Journal of Biomolecular Structure and Dynamics11 citationsDOI

Abstract

RqkA, a DNA damage responsive serine/threonine kinase, is characterized for its role in DNA repair and cell division in D. radiodurans. It has a unique combination of a kinase domain at N-terminus and a WD40 type domain at C-terminus joined through a linker. WD40 domain is comprised of eight β-propeller repeats held together via ‘tryptophan-docking motifs’ and forming a typical ‘velcro’ closure structure. RqkA mutants lacking the WD40 region (hereafter referred to as WD mutant) could not complement RqkA loss in γ radiation resistance in D. radiodurans and lacked γ radiation-mediated activation of kinase activity in vivo. WD mutants failed to phosphorylate its cognate substrate (e.g. DrRecA) in surrogate E. coli cells. Unlike wild-type enzyme, the kinase activity of its WD40 mutants was not stimulated by pyrroloquinoline quinine (PQQ) indicating the role of the WD motifs in PQQ interaction and stimulation of its kinase activity. Together, results highlighted the importance of the WD40 domain in the regulation of RqkA kinase signaling functions in vivo, and thus, the role of WD40 domain in the regulation of any STPK is first time demonstrated in bacteria.Communicated by Ramaswamy H. Sarma

Topics & Concepts

Protein kinase domainKinaseMutantBiologyCell biologyBiochemistryDeinococcus radioduransChemistryDNAGeneDNA Repair MechanismsCancer therapeutics and mechanismsBacterial Genetics and Biotechnology