Cloning, organization and functional analysis of ilvA, ilvB and ilvC genes from Corynebacterium glutamicum

Abstract

Corynebacterium glutamicum is an industrially important bacterium for the manufacture of amino acids. We constructed genomic libraries of this Gram + bacterium and screened for clones carrying isoleucine biosynthesis genes I ilv) by complementation of Escherichia coli mutants. Clones complementing ilvA, ilvB, and ilvC were isolated. As based on the functional analysis of the corresponding plasmids in C. glutamicum, the DNA fragments isolated encode threonine dehydratase, acetohydroxy acid synthase, and isomeroreductase, catalyzing three subsequent reactions in Ile synthesis. Subcloning and transposon mutagenesis revealed that ilvB and ilvC reside on a 7-kb chromosomal fragment and that these genes are transcribed in the same direction. A shuttle vector was constructed to allow exonuclease treatment and assay subsets of plasmids for gene expression in the original C. glutamicum background. These constructs and their enzyme activity determinations revealed that despite close linkage ilvC is expressed independently from ilvB. Using Southern blots, a 15-kb fragment of chromosomal DNA carrying the ilvBC cluster was characterized. This fragment does not contain ilvA, demonstrating the entirely different organization of the isoleucine biosynthesis genes in C. glutamicum from that in enterobacteria.