The Prebiotic Provenance of Semi-Aqueous Solvents

Lago, Jennifer; Burcar, Bradley T.; Hud, Nicholas V.; Febrian, Rio; Mehta, Christopher A.; Bracher, Paul J.; Atlas, Z. D.; Pasek, Matthew A.

doi:10.1007/s11084-020-09595-9

Cited by 12 publications

(16 citation statements)

References 58 publications

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“…The speciation of phosphorus within this precipitate is unknown, but is likely inorganic phosphorus species (Pi and PPi) based on the respective solubility of these phosphorus ions [ 5 ]. Intriguingly, no precipitation occurred with the samples with MgSO 4 , sand, and urea, indicating that the Mg 2+ is complexed and thus not promoting precipitation (echoing results of [ 17 ].…”

Section: Resultssupporting

confidence: 68%

“…Furthermore, pools of formamide on the early Earth would have found it difficult to form spontaneously [ 16 ]. Formamide formation requires reaction between HCN and water, and the latter continues to convert formamide into ammonium formate [ 17 , 18 ]. Nevertheless, considering its universal availability and its ubiquity on the Earth’s surface, water is still considered to be the most plausible solvent for chemical evolution and prebiotic syntheses on the early Earth.…”

Section: Introductionmentioning

confidence: 99%

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Silicate-, Magnesium Ion-, and Urea-Induced Prebiotic Phosphorylation of Uridine via Pyrophosphate; Revisiting the Hot Drying Water Pool Scenario

Gull

Omran

Feng

et al. 2020

Life

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The availability of nucleotides on the early Earth is of great significance for the origin of a self-replicating system capable of undergoing evolution. We hereby report the successful phosphorylation reactions of the nucleoside uridine under heating in the “drying pool” prebiotic model at temperatures ranging from 60–75 °C, and by using pyrophosphate as a phosphorylation agent. Uridine monophosphates (UMP) such as uridine-5′-monophosphate (5′-UMP), 2′-UMP, and 3′-UMP, as well as cyclic 2′-3′-UMP, were identified by 31P-NMR. In addition to the above-mentioned products, a dimer of uridine-phosphate-uridine (U-P-U) was also observed. The reactions were promoted by white quartz sand, Mg2+, and by using urea as a condensation agent. The reactions also proceeded without this mixture; however, the yields increased remarkably with the presence of the above-mentioned materials. The results suggest that a hot/evaporating-drying pool of water containing organics, salts, and reactive phosphorus could be sufficient to form significant phosphate esters.

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Section: Resultssupporting

confidence: 68%

Section: Introductionmentioning

confidence: 99%

Silicate-, Magnesium Ion-, and Urea-Induced Prebiotic Phosphorylation of Uridine via Pyrophosphate; Revisiting the Hot Drying Water Pool Scenario

Gull

Omran

Feng

et al. 2020

Life

Self Cite

View full text Add to dashboard Cite

show abstract

“…These potentially prebiotically-relevant solvents include several that could form on the early Earth and that have prebiotically plausible components. Formamide has been considered to be potentially prebiotic and has shown tremendous potential for phosphorylation reactions (see caveat regarding pure formamide [125,133]). In experiments with both deep eutectic solvents employed for prebiotic synthesis of glycerol phosphates These potentially prebiotically-relevant solvents include several that could form on the early Earth and that have prebiotically plausible components.…”

Section: Deep Eutectic Solventsmentioning

confidence: 99%

“…In experiments with both deep eutectic solvents employed for prebiotic synthesis of glycerol phosphates These potentially prebiotically-relevant solvents include several that could form on the early Earth and that have prebiotically plausible components. Formamide has been considered to be potentially prebiotic and has shown tremendous potential for phosphorylation reactions (see caveat regarding pure formamide [125,133]). In experiments with both deep eutectic solvents employed for prebiotic synthesis of glycerol phosphates [113,114] and the semi-aqueous eutectic solvents [115], the yields of the glycerol phosphates were higher when formamide was used as a solvent along with silicates as catalysts [113].…”

Section: Deep Eutectic Solventsmentioning

confidence: 99%

“…In experiments with both deep eutectic solvents employed for prebiotic synthesis of glycerol phosphates [113,114] and the semi-aqueous eutectic solvents [115], the yields of the glycerol phosphates were higher when formamide was used as a solvent along with silicates as catalysts [113]. The DESs are more stable to water as C-N bond hydrolysis is minimal, but it may be harder to justify pools arising of these two components [125,[133][134][135][136].…”

Section: Deep Eutectic Solventsmentioning

confidence: 99%

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The Role of Glycerol and Its Derivatives in the Biochemistry of Living Organisms, and Their Prebiotic Origin and Significance in the Evolution of Life

Gull

Pasek

2021

Catalysts

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The emergence and evolution of prebiotic biomolecules on the early Earth remain a question that is considered crucial to understanding the chemistry of the origin of life. Amongst prebiotic molecules, glycerol is significant due to its ubiquity in biochemistry. In this review, we discuss the significance of glycerol and its various derivatives in biochemistry, their plausible roles in the origin and evolution of early cell membranes, and significance in the biochemistry of extremophiles, followed by their prebiotic origin on the early Earth and associated catalytic processes that led to the origin of these compounds. We also discuss various scenarios for the prebiotic syntheses of glycerol and its derivates and evaluate these to determine their relevance to early Earth biochemistry and geochemistry, and recapitulate the utilization of various minerals (including clays), condensation agents, and solvents that could have led to the successful prebiotic genesis of these biomolecules. Furthermore, important prebiotic events such as meteoritic delivery and prebiotic synthesis reactions under astrophysical conditions are also discussed. Finally, we have also highlighted some novel features of glycerol, including glycerol nucleic acid (GNA), in the origin and evolution of the life.

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Organophosphorus Compound Formation Through the Oxidation of Reduced Oxidation State Phosphorus Compounds on the Hadean Earth

et al. 2022

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The Prebiotic Provenance of Semi-Aqueous Solvents

Cited by 12 publications

References 58 publications

Silicate-, Magnesium Ion-, and Urea-Induced Prebiotic Phosphorylation of Uridine via Pyrophosphate; Revisiting the Hot Drying Water Pool Scenario

Silicate-, Magnesium Ion-, and Urea-Induced Prebiotic Phosphorylation of Uridine via Pyrophosphate; Revisiting the Hot Drying Water Pool Scenario

The Role of Glycerol and Its Derivatives in the Biochemistry of Living Organisms, and Their Prebiotic Origin and Significance in the Evolution of Life

Organophosphorus Compound Formation Through the Oxidation of Reduced Oxidation State Phosphorus Compounds on the Hadean Earth

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