Isotopic study of control of the lysine biosynthetic pathway during sporulation of Bacillus cereus.

Abstract

The extent of incorporation of aspartate into dipicolinic acid and into various amino compounds was determined in Bacillus cereus at various times before, during, and near the end of synthesis of dipicolinic acid. The purpose of this study was to gain further information on the in vivo control of the biosynthesis of amino acids derived from aspartate. Control of the lysine biosynthetic pathway was of particular interest with regard to sporulation, owing to the important role of diaminopimelate and dipicolinate in the structure of the spore. As synthesis of dipicolinate was initiated, incorporation of carbon derived from aspartate was funneled preferentially into this compound as compared with others of the aspartate group. Incorporation into lysine essentially stopped just before the synthesis of dipicolinate began. This is consistent with the previously observed disappearance at this time of diaminopimelic acid decarboxylase in cell-free extracts. Synthesis of diaminopimelate continued during the time of synthesis of dipicolinate. The previous suggestion that diaminopimelate might exert negative control on one of the enzymes between dihydrodipicolinate and diaminopimelate is thus considered unlikely. The possibility is discussed that synthesis of dipicolinate is favored by an increase in the rate of synthesis of dihydrodipicolinate rather than by a block in its rate of utilization.