Abstract
Methionine-insensitive revertants with normal homoserine dehydrogenase (HD) derived from Brevibacterium flavum mutant No. 1-231, a lysine producer with S-(2-aminoethyl)-l-cysteine (AEC) resistance, methionine sensitivity, a low HD level and a pyruvate kinase (PK) defect, were still AEC-resistant and PK-deficient similar to No. 1-231. But they did not produce more lysine than the original strain, No. 15-8, from which strain No. 1-231 was derived. A high lysine producing mutant, No. 22, which was derived from strain No. 1-231, selected by sensitivity to β-fluoropyruvate (FP), and was defective in HD, produced more lysine than HD-defective mutants which were derived by two-step mutation from strain No. 1-231, selected by homoserine auxotrophy. Strain No. 22 did not show FP sensitivity under the conditions tested. Among various lysine-biosynthetic enzymes examined, it had a higher level of aspartate-β-semialdehyde dehydrogenase than did its parent and the latter HD-defective mutants. Strain No. 22 produced 50...
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