Chiral symmetry breaking during the self-assembly of monolayers from achiral purine molecules

Stephen J. Sowerby; Wolfgang M. Heckl; George B. Petersen

doi:10.1007/BF02337512

Chiral symmetry breaking during the self-assembly of monolayers from achiral purine molecules

Stephen J. Sowerby, Wolfgang M. Heckl, George B. Petersen

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100 Scopus citations

Abstract

Scanning tunneling microscopy was used to investigate the structure of the two-dimensional adsorbate formed by molecular self-assembly of the purine base, adenine, on the surfaces of the naturally occurring mineral molybdenite and the synthetic crystal highly oriented pyrolytic graphite. Although formed from adenine, which is achiral, the observed adsorbate surface structures were enantiomorphic on molybdenite. This phenomenon suggests a mechanism for the introduction of a localized chiral symmetry break by the spontaneous crystallization of these prebiotically available molecules on inorganic surfaces and may have some role in the origin of biomolecular optical asymmetry. The possibility that purine-pyrimidine arrays assembled on naturally occurring mineral surfaces might act as possible templates for biomolecular assembly is discussed.

Original language	English
Pages (from-to)	419-424
Number of pages	6
Journal	Journal of Molecular Evolution
Volume	43
Issue number	5
DOIs	https://doi.org/10.1007/BF02337512
State	Published - 1996
Externally published	Yes

Keywords

Chiral symmetry breaking
Molecular self-assembly
Origin of life
Purine Bases
Scanning tunneling microscopy
Two-dimensional arrays

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10.1007/BF02337512

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abstract = "Scanning tunneling microscopy was used to investigate the structure of the two-dimensional adsorbate formed by molecular self-assembly of the purine base, adenine, on the surfaces of the naturally occurring mineral molybdenite and the synthetic crystal highly oriented pyrolytic graphite. Although formed from adenine, which is achiral, the observed adsorbate surface structures were enantiomorphic on molybdenite. This phenomenon suggests a mechanism for the introduction of a localized chiral symmetry break by the spontaneous crystallization of these prebiotically available molecules on inorganic surfaces and may have some role in the origin of biomolecular optical asymmetry. The possibility that purine-pyrimidine arrays assembled on naturally occurring mineral surfaces might act as possible templates for biomolecular assembly is discussed.",

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AU - Sowerby, Stephen J.

AU - Heckl, Wolfgang M.

AU - Petersen, George B.

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Y1 - 1996

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AB - Scanning tunneling microscopy was used to investigate the structure of the two-dimensional adsorbate formed by molecular self-assembly of the purine base, adenine, on the surfaces of the naturally occurring mineral molybdenite and the synthetic crystal highly oriented pyrolytic graphite. Although formed from adenine, which is achiral, the observed adsorbate surface structures were enantiomorphic on molybdenite. This phenomenon suggests a mechanism for the introduction of a localized chiral symmetry break by the spontaneous crystallization of these prebiotically available molecules on inorganic surfaces and may have some role in the origin of biomolecular optical asymmetry. The possibility that purine-pyrimidine arrays assembled on naturally occurring mineral surfaces might act as possible templates for biomolecular assembly is discussed.

KW - Chiral symmetry breaking

KW - Molecular self-assembly

KW - Origin of life

KW - Purine Bases

KW - Scanning tunneling microscopy

KW - Two-dimensional arrays

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Chiral symmetry breaking during the self-assembly of monolayers from achiral purine molecules

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Keywords

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