Induction of a Specific N-Methyltransferase Enzyme by Long-Term Heat Stress during Barley Leaf Growth

Abstract

Previous work showed that the indole alkaloid gramine accumulates in the upper leaves (e.g. the fifth) of barley as a response to high growth temperatures. The biosynthesis of gramine proceeds from tryptophan to 3-aminomethylindole (AMI); sequential N-methylations of AMI then yield N-methyl-3-aminomethylindole (MAMI) and gramine. To determine whether high-temperature stress increases the activity of gramine pathway enzymes, leaf tissue from plants grown at various temperatures was assayed for N-methyltransferase (NMT) activity using AMI and MAMI as substrates in both in vivo and in vitro assays. NMT activity in expanding fifth leaves was increased 8- to 20-fold by growth at high temperatures (35.degree. C day/30.degree. C night) compared to cool temperatures (15.degree. C/10.degree. C). Several days of high temperature were required for full induction of NMT activity. No induction of NMT activity occurred in leaves which had completed expansion in cool conditions before exposure to high temperature. To investigate NMT induction at the protein level, NMT activity was purified to homogeneity and used to produce polyclonal antibodies. Throughout enzyme purification, relative NMT activities towards AMI and MAMI remained constant, consistent with a single NMT enzyme. Immunoblot analysis showed that a large increase in NMT polypeptide coincided with induction of NMT activity by heat stress. Our results point to a type of high-temperature regulation of gene expression that is quite distinct from heat shock.