WSEAS Transactions on Biology and Biomedicine
Print ISSN: 1109-9518, E-ISSN: 2224-2902
Volume 9, 2012
A Plausible Route to a Prebiotic Synthesis of L-Histidine
Author:
Abstract: Possible reactions in a mildly reducing prebiotic atmosphere of ammonia and hydrogen cyanide produce cyanamide, its isomer carbodiimide, and formamidine. Alkynes such as diacetylene may form very weak van der Waals complexes with metal derivatives of porphin that acts as a potent photochemical catalyst. The reactants carbodiimide and the diacetylene adduct with magnesium porphin may react spontaneously to form an iminazole structure. Subsequent reaction with ammonia leads to an aziridine derivative. Prototropic shifts lead to an opening of the ring and finally an imine bound to the catalyst. Carbon monoxide gas may also bind to porphin with either the metal ion or in the form of an aziridine-2one complex. If this has been determined by the magnetic field of the exciting ultraviolet radiation to have a particular orientation and is present as a high energy compound, photochemical excitation may easily lead to the migration of the carbon monoxide from the surface of the porphin ring to the imine group of the iminazole adduct. Subsequent hydrolysis gives the L-histidine which forms the zwitterion.