Lectin Receptor Kinases in Plants

Abstract

Referee: Dr. Philip Becraft, Zoology and Genetics/Agronomy Depts., 2116 Molecular Building, lowa State University, Ames, IA 50011Forty-two lectin receptor kinase (lecRK)-related sequences and nine related soluble legume lectin sequences were identified in the Arabidopsis thaliana genome. The genes are scattered as a single or gathered copies at different loci throughout the five chromosomes, and four predicted lecRK probably correspond to pseudogenes. Both structural alignments and molecular modeling revealed striking similarities between the lectinlike domain of lecRK, and related A. thaliana soluble lectins and legume lectins. The hydrophobic cavity is extremely conserved, whereas most of the residues forming the monosaccharide-binding site and the bivalent cation-binding site of legume lectins are poorly conserved. LecRK should be unable to bind the simple sugars usually recognized by genuine legume lectins. Molecular modeling of the kinase domain suggests that, except for two apparently inactive receptors, all other lecRK contain a putative functional Ser/Thr kinase catalytic domain. Both the juxtamembrane and C-terminal domains, which are considered important regions for regulating the kinase activity, exhibit a few specific stretches of amino acid residues. Some phylogenetic relationships are inferred from the phylogenetic trees built up from the different lecRK domain sequences. LecRK cluster in three distinct classes (A,B,C), one of them (B) being more closely related to soluble lectins of A. thaliana and legume lectins.