All known organisms capable of anaerobic toluene metabolism initiate this pathway by addition of the methyl group of toluene to a fumarate cosubstrate to yield (R)-benzylsuccinate. This reaction represents a new biochemical principle and is catalysed by a glycyl-radical-enzyme, benzylsuccinate synthase (BSS). This enzyme has since become a model for enzymes catalysing analogous fumarate additions in anaerobic metabolic pathways of other hydrocarbons, including alkanes. Benzylsuccinate synthase contains a free radical on a conserved glycine residue, which is inserted by a separate, S-adenosylmethionine- dependent activating enzyme. The catalytic mechanism is proposed to involve the formation of an enzyme-bound substrate-radical from toluene, which then reacts with fumarate to a product-radical. Unlike other known glycyl-radical-enzymes, BSS contains additional subunits and [Fe4S4]-clusters whose functions are not yet understood. This proposal is intended to investigate the structure-function relationship of the benzylsuccinate synthase reaction mechanism and follows the following major aims: [1] solving the crystal structure of non-activated recombinant benzylsuccinate synthase. We have already attained a resolvation of the structure at 3.4 Ǻ, which promises to yield the elucidation of the structure during the next funding period. [2] further investigations on the reaction mechanism of BSS, providing a model for similar enzymes involved in anaerobic catabolism of other hydrocarbons, and [3] crystallising and characterising the activating enzyme and the activation reaction.

DFG-Verfahren Schwerpunktprogramme

Teilprojekt zu SPP 1319:  Biological Transformations of Hydrocarbons in the Absence of Oxygen