Regulation of transcription of genes required for fatty acid transport and unsaturated fatty acid biosynthesis in Escherichiacoli by FadR

Abstract

Fatty acid biosynthesis and fatty acid degradation in Escherichiacoliare co-ordinately regulated at the level of transcription by the product of the fadRgene, FadR. In the present work we investigate FadR interaction with the fabA and fadL promoters. The FadR-responsive operator within fabA, O_A, was localized to a region −47 to −31 base pairs relative to the start of transcription using DNase I protection studies. The promoter and untranslated leader within fadL had two binding sites for FadR, O_L1 at −25 to −9 and O_L2 at −1 to +16 relative to the start of transcription. The binding affinity of FadR for O_A and O_L1 or O_L2 was lower than that for the single site within fadB (O_B) as measured using protein-DNA gel retention assays. Overall, these experiments demonstrated that the affinity of FadR binding for DNA containing the fadB, fadL and fabA promoters was O_B > O_L1, O_L2 > O_A. We could not distinguish separate binding affinities for O_L1 or O_L2. We demonstrated repression of fadL transcription and activation of fabA transcription in vitro using run-off transcription assays containing purified FadR and RNA polymerase.