cAMP receptor protein–cAMP plays a crucial role in glucose–lactose diauxie by activating the major glucose transporter gene in Escherichia coli

The inhibition of β-galactosidase expression in a medium containing both glucose and lactose is a typical example of the glucose effect in Escherichia coli. We studied the glucose effect in the lacL8UV5 promoter mutant, which is independent of cAMP and cAMP receptor protein (CRP). A strong inhibition of β-galactosidase expression by glucose and a diauxic growth were observed when the lacL8UV5 cells were grown on a glucose–lactose medium. The addition of isopropyl β-d-thiogalactoside to the culture medium eliminated the glucose effect. Disruption of the crr gene or overproduction of LacY also eliminated the glucose effect. These results are fully consistent with our previous finding that the glucose effect in wild-type cells growing in a glucose–lactose medium is not due to the reduction of CRP–cAMP levels but is due to the inducer exclusion. We found that the glucose effect in the lacL8UV5 cells was no longer observed when either the crp or the cya gene was disrupted. Evidence suggested that CRP–cAMP may not enhance directly the lac repressor action in vivo. Northern blot analysis revealed that the mRNA for ptsG, a major glucose transporter gene, was markedly reduced in a Δcrp or Δcya background. The constitutive expression of the ptsG gene by the introduction of a multicopy plasmid restored the glucose effect in Δcya or Δcrp cells. We conclude that CRP–cAMP plays a crucial role in inducer exclusion, which is responsible for the glucose–lactose diauxie, by activating the expression of the ptsG gene.