Polypeptide Substrate Specificity of PsLSMT: A SET DOMAIN PROTEIN METHYLTRANSFERASE

Abstract

Rubisco large subunit methyltransferase (PsLSMT) is a SET domain protein responsible for the trimethylation of Lys-14 in the large subunit of Rubisco. The polypeptide substrate specificity determinants for pea Rubisco large subunit methyltransferase were investigated using a fusion protein construct between the first 23 amino acids from the large subunit of Rubisco and human carbonic anhydrase II. A total of 40 conservative and non-conservative amino acid substitutions flanking the target Lys-14 methylation site (positions P(-3) to P(+3)) were engineered in the fusion protein. The catalytic efficiency (k(cat)/K(m)) of PsLSMT was determined using each of the substitutions and a polypeptide consensus recognition sequence deduced from the results. The consensus sequence, represented by X-(Gly/Ser)-(Phe/Tyr)-Lys-(Ala/Lys/Arg)-(Gly/Ser)-pi, where X is any residue, Lys is the methylation site, and pi is any aromatic or hydrophobic residue, was used to predict potential alternative substrates for PsLSMT. Four chloroplast-localized proteins were identified including gamma-tocopherol methyltransferase (gamma-TMT). In vitro methylation assays using PsLSMT and a bacterially expressed form of gamma-TMT from Perilla frutescens confirmed recognition and methylation of gamma-TMT by PsLSMT in vitro. RNA interference-mediated knockdown of the PsLSMT homologue (NtLSMT) in transgenic tobacco plants resulted in a 2-fold decrease of alpha-tocopherol, the product of gamma-TMT. The results demonstrate the efficacy of consensus sequence-driven identification of alternative substrates for PsLSMT as well as identification of functional attributes of protein methylation catalyzed by LSMT.