Understanding the mechanism of sugar formation and stabilization is important for constraining theories on the abiotic origin of complex biomolecules. Although previous studies have produced sugars from small molecules through the formose and related reactions, the product mixtures are complex and unstable. We have demonstrated that simple two- and three-carbon molecules (glycolaldehyde and glyceraldehyde), in the presence of aqueous sodium silicate, spontaneously form silicate complexes of four- and six-carbon sugars, respectively. Silicate selects for sugars with a specific stereochemistry and sequesters them from rapid decomposition. Given the abundance of silicate minerals, these observations suggest that formose-like reactions may provide a feasible pathway for the abiotic formation of biologically important sugars, such as ribose.
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On the stabilization of ribose by silicate minerals.
Astrobiology
March 2011
1 Chemistry Department, University of Tennessee, Knoxville, Tennessee, USA.
The RNA-world theory hypothesizes that early Earth life was based on the RNA molecule. However, the notion that ribose, the sugar in RNA, is unstable still casts a serious doubt over this theory. Recently, it has been found that the silicate-mediated formose reaction facilitates the stabilization of ribose.
View Article and Find Full Text PDFComment on "The silicate-mediated formose reaction: bottom-up synthesis of sugar silicates".
Science
August 2010
Foundation for Applied Molecular Evolution, The Westheimer Institute for Science and Technology, 720 SW 2nd Avenue, Suite 201, Gainesville, FL 32601, USA.
Lambert et al. (Reports, 19 February 2010, p. 984) reported that silicate ions catalyze the formation and stabilization of four- and six-carbon sugars from simple sugars, suggesting a possible prebiotic pathway for the synthesis of biologically important sugars.
View Article and Find Full Text PDFThe silicate-mediated formose reaction: bottom-up synthesis of sugar silicates.
Science
February 2010
Department of Chemistry, Northwestern University, Evanston, IL 60208, USA.
Understanding the mechanism of sugar formation and stabilization is important for constraining theories on the abiotic origin of complex biomolecules. Although previous studies have produced sugars from small molecules through the formose and related reactions, the product mixtures are complex and unstable. We have demonstrated that simple two- and three-carbon molecules (glycolaldehyde and glyceraldehyde), in the presence of aqueous sodium silicate, spontaneously form silicate complexes of four- and six-carbon sugars, respectively.
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