Cloning, homology modelling and expression analysis of Oryza sativa WNK gene family

Abstract

With No Lysine kinases (WNKs) represents a gene family that encodes Ser/Thr kinases, with anomalous disposition of catalytic lysine residue in subdomain I. In plants, WNKs had been linked to circadian rhythm, photoperiodic response and abiotic stress tolerance with mechanism yet undeciphered. In the present study, full-length CDS sequences of rice WNKs (OsWNK1 to 8) were cloned from indica cultivar IR64. A total of six highly conserved kinase subdomains were identified. Comparative analysis of protein sequences from six different species of rice showed varying magnitudes of substitution (76.2 %), deletion (15.4 %), and addition (8.4 %) events. ConSurf analysis coupled with CASTp results identified functional residues that were clustered together in modelled 3-D structures. Among post-translational modifications (PTMs) studied, 87.7 % of phosphorylation sites were predicted. Mined protein-protein interactions (PPIs) depicted OsWNKs to interact notably with other OsWNK members and with key proteins like PRR95 involved in photoperiodic response and protein phosphatase like PP2C involved in ABA signalling. Gene duplication analysis revealed two paralogous duplicated gene pairs: WNK6-WNK9 and WNK7-WNK8. Oryza sativa showed maximum syntenic relationship with Sorghum bicolor among the compared species. OsWNKs showed differential transcript expression profiles on treatment with plant growth regulators indicating its versatile role in plant growth and development.