Abstract
The regulatory mechanisms in branched-chain amino acid synthesis were compared between 2-thiazolealanine (2-TA) resistant L-leucine and L-valine producing mutants and the 2-TA sensitive original strains of Brevibacterium lactofermentum 2256.
In the original strains, sensitive to 2-TA, α-isopropylmalate (IPM) synthetase, the initial enzyme specific for L-leucine synthesis, is sensitive to feedback inhibition and to repression by L-leucine, and α-acetohydroxy acid (AHA) synthetase, the common initial enzyme for synthesis of L-isoleucine, L-valine as well as L-leucine, is sensitive to feedback inhibition by each one of these amino acids, and to repression by them all. In strain No. 218, a typical L-leucine producer resistant to 2-TA, IPM synthetase was found to be markedly desensitized and derepressed, and AHA synthetase remained unaltered. On the contrary, in strain No. 333, L-valine producer resistant to 2-TA, AHA synthetase was found to be desensitized and partially derepressed, and IPM synthetase remained unaltered.
The genetic alteration of these regulatory mechanisms was discussed in connection with the accumulation pattern of amino acids.
