Strength and Regulation of the Different Promoters for Chromosomal β-Lactamases of Klebsiella oxytoca

Abstract

The two groups of chromosomal β-lactamases from Klebsiella oxytoca (OXY-1 and OXY-2) can be overproduced 73- to 223-fold, due to point mutations in the consensus sequences of their promoters. The different versions of promoters from bla _OXY-1 and bla _OXY-2 were cloned upstream of the chloramphenicol acetyltransferase (CAT) gene of pKK232-8, and their relative strengths were determined in Escherichia coli and in K. oxytoca . The three different mutations in the OXY β-lactamase promoters resulted in a 4- to 31-fold increase in CAT activity compared to that of the wild-type promoter. The G→T transversion in the first base of the −10 consensus sequence caused a greater increase in the promoter strength of the wild-type promoter than the two other principal mutations (a G-to-A transition of the fifth base of the −10 consensus sequence and a T-to-A transversion of the fourth base of the −35 sequence). The strength of the promoter carrying a double mutation (transition in the Pribnow box and the transversion in the −35 hexamer) was increased 15- to 61-fold in comparison to that of the wild-type promoter. A change from 17 to 16 bp between the −35 and −10 consensus sequences resulted in a ninefold decrease of the promoter strength. The expression of the bla _OXY promoter in E. coli differs from that in K. oxytoca , particularly for promoters carrying strong mutations. Furthermore, the bla _OXY promoter appears not to be controlled by DNA supercoiling or an upstream curved DNA, but it is dependent on the gene copy number.