Expression, purification, and phylogenetic analysis of MDIS1-INTERACTING RECEPTOR-LIKE KINASE1 (MIK1).

An abundance of protein structures has been solved in the last six decades that are paramount in defining the function of such proteins. For unsolved protein structures, however, predictions based on sequence and phylogenetic similarity can be useful for identifying key domains of interaction. Here, we describe expression and purification of a recombinant plant LRR-RLK ectodomain MIK1 using a modified baculovirus-mediated expression system with subsequent N-linked glycosylation analysis using LC-MS/MS and computational sequence-based analyses. Though highly ubiquitous, glycosylation site specificity and the degree of glycosylation influenced by genetic and exogenous factors are still largely unknown. Our experimental analysis of N-glycans on MIK1 identified clusters of glycosylation that may explicate the regions involved in MIK1 ectodomain binding. Whether these glycans are necessary for function is yet to be determined. Phylogenetic comparison using multiple sequence alignment between MIK1 and other LRR-RLKs, namely TDR in Arabidopsis thaliana, revealed conserved structural motifs that are known to play functional roles in ligand and receptor binding.