Relationship between sugar consumption and tricarboxylic acid cycle enzyme activity in a high bialaphos-producing strain

The biosynthesis of bialaphos [a herbicide, 2-amino-4(hydroxy)(methyl)-phosphinoylbutyryl-alanylalanine] produced by Streptomyces hygroscopicus, proceeds through the degradation of glucose to phosphoenol pyruvate, the formation of a CP bond, acetic addition by acetyl-CoA and alanine addition. Therefore, bialaphos formation is considered to be closely related to glucose metabolism. Based on this hypothesis, sugar consumption and the activities of the tricarboxylic acid cycle enzymes were examined using a highly productive strain and a strain of the lower productivity. It was clear that the highly productive strain has a lower sugar consumption rate and lower yield of cells, compared with the lower productivity strain. The activities of the tricarboxylic acid cycle enzymes of the highly productive strain were lower than those of the lower productivity strain, while the activities of the glyoxylic acid cycle enzymes of the highly productive strain were higher. From these findings, it is suggested that the highly productive strain suppresses the flow from acetyl-CoA and pyruvate (as substrates of bialaphos) to the tricarboxylic acid cycle, and efficiently directs these substrates to the secondary metabolism by activation of the glyoxylic acid cycle, resulting in a high rate of bialaphos production in this strain.