Abstract
Methionine has an almost unique stimulatory effect on biosynthesis of cephalosporins (by Cephalosporium acremonium). No other sulfur-containing compound tested, except dl-methionine-dl-sulfoxide, replaced methionine. dl-Methionine stimulated the synthesis of cephalosporins when added after the growth phase. The utilization of inorganic sulfate was repressed by methionine. Experiments with l-methionine-S(35) showed that essentially all the sulfur in the cephalosporins was derived from methionine. Sulfur-labeled compounds found in the soluble pool from cells grown with methionine-S(35) were methionine, homocysteine, taurine, cystathionine, cysteic acid, glutathionine, and cysteine. dl-Serine-3-C(14) was incorporated into the antibiotics, and its utilization was stimulated by methionine. l-Cysteine had a sparing effect on the incorporation of methionine-S(35) and serine-C(14) into the antibiotics. The data are consistent with the hypothesis that a cystathionine-mediated pathway is operative in the transfer of sulfur between methionine and cysteine.
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