scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1015880016 |
P356 | DOI | 10.1038/NCHEM.2624 |
P698 | PubMed publication ID | 28338685 |
P50 | author | Matthew W Powner | Q56434014 |
P2093 | author name string | Adam J Coggins | |
P2860 | cites work | The implausibility of metabolic cycles on the prebiotic Earth | Q21563558 |
Prebiotic Chemistry and the Origin of the RNA World | Q22066160 | ||
Synthesis of activated pyrimidine ribonucleotides in prebiotically plausible conditions | Q22122213 | ||
Primordial carbonylated iron-sulfur compounds and the synthesis of pyruvate | Q28144509 | ||
Driving parts of Krebs cycle in reverse through mineral photochemistry | Q28278661 | ||
Formation of glycolaldehyde phosphate from glycolaldehyde in aqueous solution | Q28372127 | ||
Production of Potentially Prebiotic Condensed Phosphates by Phosphorus Redox Chemistry | Q61876349 | ||
Chemistry of Acyl Radicals | Q62606247 | ||
The photochemistry of manganese and the origin of banded iron formations | Q70941457 | ||
Selective phosphorylation of the cis-2', 3'-diol of unprotected ribonucleosides with trimetaphosphate in aqueous solution | Q71520659 | ||
Formation of potentially prebiotic amphiphiles by reaction of beta-hydroxy-n-alkylamines with cyclotriphosphate | Q80213544 | ||
Evolution of Promoter Sequences: Elements of a Canonical Promoter for Prespore Genes of Dictyostelium | Q95823978 | ||
The origin of intermediary metabolism | Q28776641 | ||
The large-scale organization of metabolic networks | Q29547498 | ||
Prebiotically plausible oligoribonucleotide ligation facilitated by chemoselective acetylation | Q30619518 | ||
Mechanistic imperatives for aldose-ketose isomerization in water: specific, general base- and metal ion-catalyzed isomerization of glyceraldehyde with proton and hydride transfer | Q30656475 | ||
Phosphorylation of glyceric acid in aqueous solution using trimetaphosphate | Q30659811 | ||
Non-enzymatic glycolysis and pentose phosphate pathway-like reactions in a plausible Archean ocean | Q33621532 | ||
Chemical etiology of nucleic acid structure | Q33669610 | ||
The oxidation state of Hadean magmas and implications for early Earth's atmosphere | Q34237087 | ||
Are polyphosphates or phosphate esters prebiotic reagents? | Q34356333 | ||
Volatile, isotope, and organic analysis of martian fines with the Mars Curiosity rover | Q34373730 | ||
Activated acetic acid by carbon fixation on (Fe,Ni)S under primordial conditions | Q34420765 | ||
Common origins of RNA, protein and lipid precursors in a cyanosulfidic protometabolism | Q34468399 | ||
The comet-like composition of a protoplanetary disk as revealed by complex cyanides | Q34470879 | ||
Detection and formation scenario of citric acid, pyruvic acid, and other possible metabolism precursors in carbonaceous meteorites | Q35180797 | ||
Exploratory experiments on the chemistry of the "glyoxylate scenario": formation of ketosugars from dihydroxyfumarate | Q35771284 | ||
Manganese oxide minerals: crystal structures and economic and environmental significance | Q36192648 | ||
Ester-Mediated Amide Bond Formation Driven by Wet-Dry Cycles: A Possible Path to Polypeptides on the Prebiotic Earth. | Q36369938 | ||
A possible prebiotic synthesis of pantetheine, a precursor to coenzyme A. | Q36715756 | ||
Radiation-induced formation of chlorine oxides and their potential role in the origin of Martian perchlorates | Q38455019 | ||
The versatility of phosphoenolpyruvate and its vinyl ether products in biosynthesis | Q41112852 | ||
Prebiotic chemistry: a new modus operandi | Q41851066 | ||
Synthesis of glycine-containing complexes in impacts of comets on early Earth | Q42850707 | ||
Prebiotic metabolism: production by mineral photoelectrochemistry of alpha-ketocarboxylic acids in the reductive tricarboxylic acid cycle | Q43227988 | ||
The sugar model: catalysis by amines and amino acid products | Q43570858 | ||
Was ferrocyanide a prebiotic reagent? | Q45967866 | ||
Oxidant abundances in rainwater and the evolution of atmospheric oxygen | Q46106514 | ||
Oparin's "Origin of Life": sixty years later | Q46117511 | ||
Oxidative acylation using thioacids | Q46159386 | ||
On a hypothetical generational relationship between HCN and constituents of the reductive citric acid cycle | Q47842451 | ||
Origins of metal ions in biology | Q47852563 | ||
Oxidative cleavage of α-diols, α-diones, α-hydroxy-ketones and α-hydroxy- and α-keto acids with calcium hypochlorite [Ca(OCl)2] | Q55951269 | ||
Mineral evolution | Q55967155 | ||
New methods for the oxidation of aldehydes to carboxylic acids and esters | Q56069016 | ||
Nature and composition of the continental crust: A lower crustal perspective | Q56212018 | ||
Chemie von a-Aminonitrilen. Aldomerisierung von Glycolaldehyd-phosphat zu racemischen Hexose-2,4,6-triphosphaten und (in Gegenwart von Formaldehyd) racemischen Pentose-2,4-diphosphaten: rac-Allose-2,4,6-triphosphat und rac-Ribose-2,4-diphosphat sind | Q56489814 | ||
Oxidation of α,β-un saturated aldehydes | Q56521223 | ||
Widespread occurrence of (per)chlorate in the Solar System | Q58391060 | ||
Peptide Formation in the Presence of Linear or Cyclic Polyphosphates | Q59053676 | ||
Increased chlorine dioxide over Antarctica caused by volcanic aerosols from Mount Pinatubo | Q59055370 | ||
Photo-oxidation of hydrated Fe2+—significance for banded iron formations | Q59076599 | ||
BIOGENIC MANGANESE OXIDES: Properties and Mechanisms of Formation | Q59345760 | ||
P433 | issue | 4 | |
P921 | main subject | phosphorylation | Q242736 |
P304 | page(s) | 310-317 | |
P577 | publication date | 2016-10-10 | |
P1433 | published in | Nature Chemistry | Q2107904 |
P1476 | title | Prebiotic synthesis of phosphoenol pyruvate by α-phosphorylation-controlled triose glycolysis. | |
P478 | volume | 9 |
Q92402563 | 1,1-Ethenediol: The Long Elusive Enol of Acetic Acid |
Q39432535 | A Chemist's Perspective on the Role of Phosphorus at the Origins of Life |
Q100526162 | A plausible metal-free ancestral analogue of the Krebs cycle composed entirely of α-ketoacids |
Q98906781 | A way to thioacetate esters compatible with non-oxidative prebiotic conditions |
Q42290282 | Chiral Sugars Drive Enantioenrichment in Prebiotic Amino Acid Synthesis |
Q55618608 | Comet Pond II: Synergistic Intersection of Concentrated Extraterrestrial Materials and Planetary Environments to Form Procreative Darwinian Ponds. |
Q47139104 | Cyanamide as a prebiotic phosphate activating agent - catalysis by simple 2-oxoacid salts. |
Q64229041 | Making Molecules with Clay: Layered Double Hydroxides, Pentopyranose Nucleic Acids and the Origin of Life |
Q41666525 | Nitrogenous Derivatives of Phosphorus and the Origins of Life: Plausible Prebiotic Phosphorylating Agents in Water |
Q33913600 | Nonenzymatic gluconeogenesis-like formation of fructose 1,6-bisphosphate in ice. |
Q92247325 | Phosphates as Energy Sources to Expand Metabolic Networks |
Q47705259 | Phosphorylation, oligomerization and self-assembly in water under potential prebiotic conditions. |
Q90133226 | Prebiotic Peptide Bond Formation Through Amino Acid Phosphorylation. Insights from Quantum Chemical Simulations |
Q90183530 | Prebiotic Phosphorylation of Uridine using Diamidophosphate in Aerosols |
Q50659290 | Prebiotic synthesis of aminooxazoline-5'-phosphates in water by oxidative phosphorylation. |
Q90220693 | Progress in synthesizing protocells |
Q46249690 | Proton gradients and pH oscillations emerge from heat flow at the microscale |
Q57030095 | Selective prebiotic conversion of pyrimidine and purine anhydronucleosides into Watson-Crick base-pairing arabino-furanosyl nucleosides in water |
Q43528082 | Structural and electronic properties of barbituric acid and melamine-containing ribonucleosides as plausible components of prebiotic RNA: implications for prebiotic self-assembly |
Q91676845 | Synthesis and breakdown of universal metabolic precursors promoted by iron |
Q42362391 | The Future of Prebiotic Chemistry |