Issue 26, 2018

Synthesis of (d)-erythrose from glycolaldehyde aqueous solutions under electric field

Abstract

The formation of the first C–C bonds from formaldehyde represents the rate-limiting step of the formose reaction. However, the free-energy surface associated with such a process has never been determined in condensed phase. By means of ab initio molecular dynamics and metadynamics techniques here we report on the free-energy landscape underlying the synthesis of glycolaldehyde from a formaldehyde aqueous solution. Moreover, numerical samples of formaldehyde (both neat and in water solution) and of glycolaldehyde (both neat and in aqueous solution) have been exposed to intense electric fields. The application of electrostatic gradients strongly prevents the formaldehyde umpolung and catalyzes the formation of C–O-bonded polymers in formaldehyde-containing samples. However, when the field is applied on glycolaldehyde aqueous solutions, new C–C bonds are formed and (D)-erythrose is synthesized. This way, a numerical Miller-like experiment led to the formation of a prebiotically relevant (D)-tetrose from ubiquitarious molecules such as glycolaldehyde and water.

Graphical abstract: Synthesis of (d)-erythrose from glycolaldehyde aqueous solutions under electric field

Supplementary files

Article information

Article type
Communication
Submitted
03 Jan 2018
Accepted
31 Jan 2018
First published
31 Jan 2018

Chem. Commun., 2018,54, 3211-3214

Synthesis of (D)-erythrose from glycolaldehyde aqueous solutions under electric field

G. Cassone, J. Sponer, J. E. Sponer, F. Pietrucci, A. M. Saitta and F. Saija, Chem. Commun., 2018, 54, 3211 DOI: 10.1039/C8CC00045J

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