A Computational Study of a Prebiotic Synthesis of the Steroid Progesterone (C and D Rings)

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Abstract: The magnesium ion metalloporphyrin complex is shown to bind the ligands propyne (p) and ethyne (e) on the metal or nitrogen pyrrole sites as a two site catalyst in their copolymerization. The order of addition of the monomers is (pepee). The steroid ring D (pep) is formed first from the propyne adduct bound to the metal site and the but-diene adduct bound to the N-site. The optimal orientation of these adducts determines the β-orientation of the 17-substituent. Further reaction with hydroxyl radicals allows this to be a 17 β- acetyl substituent. Further addition of two ethyne monomers forms an N-diene cyclopentene derivative able to cyclise to form the steroid ring C (pee) with a trans conformation and a 13-β methyl substituent. The reactions have been shown to be feasible from the overall enthalpy changes in the ZKE approximation at the HF and MP2 /6-31G* level, and with acceptable activation energies.

WSEAS Transactions on Biology and Biomedicine, ISSN / E-ISSN: 1109-9518 / 2224-2902, Volume 17, 2020, Art. #3

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Nigel Aylward, "A Computational Study of a Prebiotic Synthesis of the Steroid Progesterone (C and D Rings)," WSEAS Transactions on Biology and Biomedicine, vol. 17, pp. 18-26, 2020, DOI:10.37394/23208.2020.17.3
Nigel Aylward. A Computational Study of a Prebiotic Synthesis of the Steroid Progesterone (C and D Rings). WSEAS Transactions on Biology and Biomedicine. 2020;17:18-26. 10.37394/23208.2020.17.3
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