Styrene is an important chemical extensively used in the petrochemical and polymer industries. In Pseudomonas fluorescens ST, styrene metabolism is controlled by a two-component regulatory system, very uncommon in the degradation of aromatic com- pounds. The two-component regulatory proteins StyS and StyR regulate the expression of the styABCD operon, which codes for styrene degradation. StyS corresponds to the sensor kinase and StyR to the response regulator, which is essential for the activation of PstyA, the promoter of the catabolic operon. In two-component systems, the response regulator is phosphorylated by the cognate sensor kinase. Phosphorylation activates the response regulator, inducing DNA-binding. The mechanism underlying this activation hasbeenreportedonlyforaveryfewresponseregulators.Here,theeffectofphosphorylationontheoligomericstateandonthe DNA-binding properties of StyR has been investigated. Phosphorylation induces dimerization of StyR, the affinity of dimeric StyR for the target DNA is higher than that of the monomer, moreover dimeric StyR binding to the DNA target is cooperative. Fur- thermore, StyR oligomerization may be driven by the DNA target. This is the first direct demonstration that StyR response reg- ulator binds to the PstyA promoter.
Leoni, L., Ascenzi, P., Bocedi, A., Rampioni, G., Castellini, L., Zennaro, E. (2003). Styrene-catabolism regulation in Pseudomonas fluorescens: phosphorylation of StyR induces dimerization and cooperative DNA-binding. BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 303, 926-931 [10.1016/S0006-291X(03)00450-9].
Styrene-catabolism regulation in Pseudomonas fluorescens: phosphorylation of StyR induces dimerization and cooperative DNA-binding
LEONI, Livia;RAMPIONI, Giordano;
2003-01-01
Abstract
Styrene is an important chemical extensively used in the petrochemical and polymer industries. In Pseudomonas fluorescens ST, styrene metabolism is controlled by a two-component regulatory system, very uncommon in the degradation of aromatic com- pounds. The two-component regulatory proteins StyS and StyR regulate the expression of the styABCD operon, which codes for styrene degradation. StyS corresponds to the sensor kinase and StyR to the response regulator, which is essential for the activation of PstyA, the promoter of the catabolic operon. In two-component systems, the response regulator is phosphorylated by the cognate sensor kinase. Phosphorylation activates the response regulator, inducing DNA-binding. The mechanism underlying this activation hasbeenreportedonlyforaveryfewresponseregulators.Here,theeffectofphosphorylationontheoligomericstateandonthe DNA-binding properties of StyR has been investigated. Phosphorylation induces dimerization of StyR, the affinity of dimeric StyR for the target DNA is higher than that of the monomer, moreover dimeric StyR binding to the DNA target is cooperative. Fur- thermore, StyR oligomerization may be driven by the DNA target. This is the first direct demonstration that StyR response reg- ulator binds to the PstyA promoter.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.