: The parameters that determine the formation of linear peptides and cyclic dimers (diketopiperazine, DKP) on silica surfaces of different surface area, silanol and siloxane ring populations, controlled by thermal treatments, are investigated upon glycine deposition from gas and liquid phases. The formed products were characterized by infrared and Raman spectroscopies, X-ray diffraction and thermogravimetric analysis. The results reveal the importance of "nearly-free" silanols to form ester centers as primers for the formation of linear peptides over DKP, on surfaces with medium silanol density (1.4 to 2.7 nm-2 ). Quenched reactivity is seen on isolated silanols (density≤0.7 nm-2 ), while silanols involved in hydrogen bonding (density of 4.5 nm-2 ) weakly interact with Gly resulting in its cyclization to DKP. Deposition of glycine from liquid phase may also form both DKP and linear polymers, depending on its loading and silica surface. These conclusions demonstrate the complexity of glycine surface chemistry in the polymerization reaction and highlight the interest of a surface science approach to evaluate geochemical prebiotic scenarios.

Cyclic or Linear? Parameters Determining the Outcome of Glycine Polymerization in Silica Surface Prebiotic Scenarios

El Samrout, Ola;Berlier, Gloria
;
2023-01-01

Abstract

: The parameters that determine the formation of linear peptides and cyclic dimers (diketopiperazine, DKP) on silica surfaces of different surface area, silanol and siloxane ring populations, controlled by thermal treatments, are investigated upon glycine deposition from gas and liquid phases. The formed products were characterized by infrared and Raman spectroscopies, X-ray diffraction and thermogravimetric analysis. The results reveal the importance of "nearly-free" silanols to form ester centers as primers for the formation of linear peptides over DKP, on surfaces with medium silanol density (1.4 to 2.7 nm-2 ). Quenched reactivity is seen on isolated silanols (density≤0.7 nm-2 ), while silanols involved in hydrogen bonding (density of 4.5 nm-2 ) weakly interact with Gly resulting in its cyclization to DKP. Deposition of glycine from liquid phase may also form both DKP and linear polymers, depending on its loading and silica surface. These conclusions demonstrate the complexity of glycine surface chemistry in the polymerization reaction and highlight the interest of a surface science approach to evaluate geochemical prebiotic scenarios.
2023
e202204010
e202204024
https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/chem.202204010
cyclic dimer; glycine; linear peptides; polymerization; silica
El Samrout, Ola; Mezzetti, Alberto; Berlier, Gloria; Lambert, Jean-François
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1931633
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