2019
DOI: 10.3390/life9020052
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Prebiotic Sugar Formation Under Nonaqueous Conditions and Mechanochemical Acceleration

Abstract: Monosaccharides represent one of the major building blocks of life. One of the plausible prebiotic synthesis routes is the formose network, which generates sugars from C1 and C2 carbon sources in basic aqueous solution. We report on the feasibility of the formation of monosaccharides under physical forces simulated in a ball mill starting from formaldehyde, glycolaldehyde, DL-glyceraldehyde as prebiotically available substrates using catalytically active, basic minerals. We investigated the influence of the me… Show more

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Cited by 38 publications
(40 citation statements)
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“…[78] Thediscovery of efficient enzyme reactivity without bulk solvents is consistent with the emergent realization that mechanochemical reactivity could have strongly affected the development of living systems,including the formation of small prebiotic molecules. [79] 5. Light and Milling…”
Section: Mechano-enzymatic Reactionsmentioning
confidence: 99%
“…[78] Thediscovery of efficient enzyme reactivity without bulk solvents is consistent with the emergent realization that mechanochemical reactivity could have strongly affected the development of living systems,including the formation of small prebiotic molecules. [79] 5. Light and Milling…”
Section: Mechano-enzymatic Reactionsmentioning
confidence: 99%
“…We know that formaldehyde and Ca(OH) 2 can give sugars by the formose reaction, as first described by Butlerov . Although it remains unclear how exactly such a process could lead to the substantial accumulation of ribose on the early Earth, recent developments have led to significant improvements in the prebiotic synthesis of ribose from simpler aldoses . We also know that urea was one of the most likely nitrogen‐containing molecules present on the early Earth and that it can activate mineral phosphate to achieve phosphorylations .…”
Section: Introductionmentioning
confidence: 96%
“…[48] As discussed, biuret and triuret are obtained upon pyrolysis of urea, one of the most likely building blocks available on the early Earth. Given that various tri-, tetra-, and pentose sugars are prebiotically accessible from glycoaldehyde, [31,32] which is itself accessible from either formaldehyde [30] or HCN by ultraviolet irradiation, [49] our discovery creates the prebiotically attractive possibility of generating information-encoding oligomers whose key building blocks are derived of simple one-carbon units.The chemistry described here now needs to be explored with sugars simpler than ribose.D iscussed examples are threose- [22,50] and glycol-based [23,25] backbones.…”
Section: Resultsmentioning
confidence: 99%
“…[22] TNAw as later simplified to an acyclicp olymer known as glycol nucleic acid (GNA), [23][24][25] and various other XNAb ackbones have since been investigated. [31][32][33] We also know that urea was one of the most likely nitrogen-containing molecules present on the early Earth and that it can activate mineral phosphate to achieve phosphorylations. [30] Although it remains unclear how exactly such aprocess could lead to the substantial accumulation of ribose on the early Earth, recent developments have led to significant improvements in the prebiotic synthesis of ribose from simpler aldoses.…”
Section: Introductionmentioning
confidence: 99%
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