Issue 20, 2013
From the journal:

Physical Chemistry Chemical Physics

Theoretical studies of the mechanism of 2-aminooxazole formation under prebiotically plausible conditions

Rafał Szabla,a   Judit E. Šponer,*a   Jiří Šponera  and  Robert W. Góra*b  

* Corresponding authors

a Institute of Biophysics, Academy of Sciences of the Czech Republic, Královopolská 135, Brno, Czech Republic
E-mail: judit@ncbr.chemi.muni.cz

b Theoretical Chemistry Group, Institute of Physical and Theoretical Chemistry, Wrocław University of Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland
E-mail: robert.gora@pwr.wroc.pl
Fax: +48 71 320 3364
Tel: +48 71 320 4076

Abstract

2-Aminooxazole is generally considered to play a central role in the origin of informational polymers. In the current contribution we use density functional calculations to investigate the detailed mechanism of 2-aminooxazole formation from the prebiotic soup according to the scenario suggested by M. W. Powner, B. Gerland and J. D. Sutherland, Nature, 2009, 459, 239–242. Parallel to the phosphate-catalyzed reaction pathway we also describe its water-assisted variant. Our calculations show that phosphate-catalysis is indispensable not only in the cyclization and the subsequent water-elimination steps, as previously suggested, but also in the very first reaction step leading to the formation of the carbinolamine intermediate. In addition, we suggest concurrent reaction channels for the cyclization and water-elimination reaction steps, both involving catalytic phosphate ions.

Graphical abstract: Theoretical studies of the mechanism of 2-aminooxazole formation under prebiotically plausible conditions

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Article information

DOI
https://doi.org/10.1039/C3CP50320H
Article type
Paper
Submitted
23 Jan 2013
Accepted
04 Mar 2013
First published
22 Mar 2013

Phys. Chem. Chem. Phys., 2013,15, 7812-7818

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Theoretical studies of the mechanism of 2-aminooxazole formation under prebiotically plausible conditions

R. Szabla, J. E. Šponer, J. Šponer and R. W. Góra, Phys. Chem. Chem. Phys., 2013, 15, 7812 DOI: 10.1039/C3CP50320H

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