Carnitine biosynthesis in Neurospora crassa: enzymatic conversion of lysine to epsilon-N-trimethyllysine.

The enzymatic conversion of L-lysine, epsilon-N-trimethyl-L-lysine the first series of reactions in the biosynthesis of carnitine in Neurospora crassa, proceeds via sequential methylation of free L-lysine, epsilon-N-methyl-L-lysine, and epsilon -N-dimethyl-L-lysine. The latter two compounds have been shown to be intermediates in the biosynthesis of carnitine by radioisotope dilution and incorporation experiments in growing cultures of N. crassa 33933 (lys-) and 38706 (met-). Methionine but not choline, has been recognized as an effective methyl donor in vivo. Inclusion of choline in the growth medium of strain 33933 does, however, enhance incorporation of the methyl groups of L-[methyl-3H]methionine into carnitine in an apparent "sparing" effect on methionine synthesis. Studies in cell-free extracts of the lysine auxotroph strain 33933 of N. crassa have established that lysine and epsilon-N-methyl and epsilon-N-dimethyllysine are enzymatically methylated, with S-adenosyl-L-methionine as the methyl group donor. The enzyme system appears to have no essential cofactors. Lysine does not induce synthesis of the enzyme system in the wild-type strain 262, whereas both carnitine and epsilon-N-trimethyllysine repress its synthesis in strain 33933.