scholarly article | Q13442814 |
P819 | ADS bibcode | 2015AsBio..15..538C |
P356 | DOI | 10.1089/AST.2014.1213 |
P932 | PMC publication ID | 4523004 |
P698 | PubMed publication ID | 26200431 |
P5875 | ResearchGate publication ID | 280328685 |
P50 | author | Markus Meringer | Q47151940 |
Jay T. Goodwin | Q47868268 | ||
P2093 | author name string | H James Cleaves | |
P2860 | cites work | Origin of first cells at terrestrial, anoxic geothermal fields | Q22066268 |
Carbonaceous meteorites contain a wide range of extraterrestrial nucleobases | Q22066300 | ||
Universality in intermediary metabolism | Q24561926 | ||
Modern metabolism as a palimpsest of the RNA world | Q24607355 | ||
High molecular diversity of extraterrestrial organic matter in Murchison meteorite revealed 40 years after its fall | Q24625141 | ||
The universal nature of biochemistry | Q24633083 | ||
Rethinking early Earth phosphorus geochemistry | Q24647434 | ||
Peptide nucleic acids rather than RNA may have been the first genetic molecule | Q24683070 | ||
Structural basis for the transition from initiation to elongation transcription in T7 RNA polymerase | Q27639673 | ||
Chemical etiology of nucleic acid structure: the alpha-threofuranosyl-(3'-->2') oligonucleotide system | Q28137995 | ||
Synthesis of purines under possible primitive earth conditions. I. Adenine from hydrogen cyanide | Q28186376 | ||
Borate minerals stabilize ribose | Q28238098 | ||
A simple glycol nucleic acid | Q28241216 | ||
Morpholino antisense oligomers: design, preparation, and properties | Q28243074 | ||
Aqueous, low temperature environment of the Orgueil meteorite parent body | Q79450623 | ||
Structure and reaction based evaluation of synthetic accessibility | Q79759895 | ||
Formation of a beta-pyrimidine nucleoside by a free pyrimidine base and ribose in a plausible prebiotic reaction | Q80607530 | ||
Chemical space and biology | Q81153866 | ||
Control of the chirality and helicity of oligomers of serinol nucleic acid (SNA) by sequence design | Q83361523 | ||
Base-pairing properties of a structural isomer of glycerol nucleic acid | Q86635881 | ||
β-Homoalanyl PNAs: Synthesis and Indication of Higher Ordered Structures | Q88520007 | ||
Navigating chemical space for biology and medicine | Q28298611 | ||
Prebiotic phosphorylation of nucleosides in formamide | Q28335830 | ||
970 Million Druglike Small Molecules for Virtual Screening in the Chemical Universe Database GDB-13 | Q29387357 | ||
The origin of the genetic code | Q29547681 | ||
Evolution of the genetic apparatus | Q29617368 | ||
Coenzymes as fossils of an earlier metabolic state | Q29618250 | ||
Estimation of the size of drug-like chemical space based on GDB-17 data. | Q30662631 | ||
Chemography: the art of navigating in chemical space. | Q30986108 | ||
Glyoxylate as a backbone linkage for a prebiotic ancestor of RNA. | Q31027298 | ||
Diversity in medicinal chemistry space | Q33232965 | ||
N2'-->p3' phosphoramidate glycerol nucleic acid as a potential alternative genetic system | Q33402610 | ||
Chemical etiology of nucleic acid structure | Q33669610 | ||
Chance and necessity in biochemistry: implications for the search for extraterrestrial biomarkers in Earth-like environments | Q33767960 | ||
Exploring neurotherapeutic space: how many neurological drugs exist (or could exist)? | Q33781539 | ||
Functional RNAs exhibit tolerance for non-heritable 2'-5' versus 3'-5' backbone heterogeneity | Q33870556 | ||
Exploring and exploiting biologically relevant chemical space | Q33895726 | ||
Synthetic genetic polymers capable of heredity and evolution | Q34031569 | ||
Structure/affinity studies in the bicyclo-DNA series: Synthesis and properties of oligonucleotides containing bc(en)-T and iso-tricyclo-T nucleosides | Q34082208 | ||
Studies in prebiotic synthesis. VI. Synthesis of purine nucleosides | Q34207098 | ||
Enumeration of 166 billion organic small molecules in the chemical universe database GDB-17. | Q34307495 | ||
The case for an ancestral genetic system involving simple analogues of the nucleotides | Q34634098 | ||
The ups and downs of nucleic acid duplex stability: structure-stability studies on chemically-modified DNA:RNA duplexes | Q34645854 | ||
Information transfer from DNA to peptide nucleic acids by template-directed syntheses | Q34646002 | ||
Why nature chose phosphates | Q34658466 | ||
Potentially prebiotic synthesis of pyrimidine beta-D-ribonucleotides by photoanomerization/hydrolysis of alpha-D-cytidine-2'-phosphate | Q34829587 | ||
Natural products and drug discovery. Can thousands of years of ancient medical knowledge lead us to new and powerful drug combinations in the fight against cancer and dementia? | Q34948729 | ||
Hydrolytic stability of helical RNA: a selective advantage for the natural 3',5'-bond | Q34996537 | ||
Beyond terrestrial biology: charting the chemical universe of α-amino acid structures | Q35024630 | ||
Detection and formation scenario of citric acid, pyruvic acid, and other possible metabolism precursors in carbonaceous meteorites | Q35180797 | ||
Nucleoside and nucleotide analogue reverse transcriptase inhibitors: a clinical review of antiretroviral resistance. | Q35648158 | ||
Group contribution method for thermodynamic analysis of complex metabolic networks | Q36783787 | ||
The resurgence of acyclic nucleic acids | Q37691376 | ||
The compositional and evolutionary logic of metabolism | Q38067007 | ||
Nucleic acid catalysis: metals, nucleobases, and other cofactors | Q38204496 | ||
Asphalt, water, and the prebiotic synthesis of ribose, ribonucleosides, and RNA. | Q38903888 | ||
??? | Q28649301 | ||
LIGAND: database of chemical compounds and reactions in biological pathways | Q39524233 | ||
Titan's primordial soup: formation of amino acids via low-temperature hydrolysis of tholins | Q39875905 | ||
Chemoselective multicomponent one-pot assembly of purine precursors in water | Q41816642 | ||
Synthesis and properties of the simplified nucleic acid glycol nucleic acid | Q43092263 | ||
Comprehensive investigation of the energetics of pyrimidine nucleoside formation in a model prebiotic reaction. | Q43259121 | ||
Phosphorylation with Inorganic Phosphates at Moderate Temperatures | Q44188124 | ||
Synthesis and biological activities of some N6- and N9-carbamoyladenines and related ribonucleosides | Q44274521 | ||
The reactions of nitrogen heterocycles with acrolein: scope and prebiotic significance | Q44320412 | ||
A highly enantio-selective hexitol nucleic acid template for nonenzymatic oligoguanylate synthesis. | Q45976119 | ||
An investigation of prebiotic purine synthesis from the hydrolysis of HCN polymers. | Q46050271 | ||
Nonenzymatic synthesis of RNA and DNA oligomers on hexitol nucleic acid templates: the importance of the A structure | Q46217314 | ||
Size estimation of chemical space: how big is it? | Q47321477 | ||
The TNA-family of nucleic acid systems: properties and prospects | Q47346359 | ||
Prebiotic ribose synthesis: a critical analysis | Q47389826 | ||
The origin of the biologically coded amino acids | Q47419052 | ||
Template-directed synthesis of novel, nucleic acid-like structures | Q47426391 | ||
The improbability of prebiotic nucleic acid synthesis | Q47445333 | ||
Takeover mechanisms and early biochemical evolution | Q47654151 | ||
Molecules in silico: a graph description of chemical reactions. | Q51913690 | ||
Evolution of the coenzymes. | Q52767365 | ||
The prebiotic role of adenine: A critical analysis | Q54086424 | ||
Cheminformatics Analysis of Organic Substituents: Identification of the Most Common Substituents, Calculation of Substituent Properties, and Automatic Identification of Drug-like Bioisosteric Groups | Q56032354 | ||
TNA as a Potential Alternative to Natural Nucleic Acids | Q57082395 | ||
On dating stages in prebiotic chemical evolution | Q57138212 | ||
The chemical conditions on the parent body of the murchison meteorite: Some conclusions based on amino, hydroxy and dicarboxylic acids | Q58071659 | ||
Phosphorylation on the Primitive Earth: Phosphorylation of Adenosine with Linear Polyphosphate Salts in Aqueous Solution | Q59032307 | ||
Phosphorylation on the Primitive Earth: Phosphorylation by way of Inorganic Phosphate as a Potential Prebiotic Process | Q59089620 | ||
Template-directed synthesis of acyclic oligonucleotide analogues | Q67244455 | ||
The possible role of inorganic thiophosphate as a prebiotic phosphorylating agent | Q68796966 | ||
Studies in prebiotic synthesis: VII. Solid-state synthesis of purine nucleosides | Q69466538 | ||
Urea-Inorganic Phosphate Mixtures as Prebiotic Phosphorylating Agents | Q70547730 | ||
Studies in prebiotic synthesis. V. Synthesis and photoanomerization of pyrimidine nucleosides | Q71431111 | ||
Acylations of some 2-amino-6-halo-and 2-amino-6-alkylthiopurines | Q72111893 | ||
Peptide nucleic acid (PNA): a model structure for the primordial genetic material? | Q72259811 | ||
Redesigning nucleic acids | Q74477825 | ||
The mechanism of synthesis of amino acids by electric discharges | Q74485477 | ||
DNA-catalyzed polymerization | Q77568417 | ||
Mapping the landscape of potentially primordial informational oligomers: oligodipeptides and oligodipeptoids tagged with triazines as recognition elements | Q79366717 | ||
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 538-558 | |
P577 | publication date | 2015-07-01 | |
P1433 | published in | Astrobiology | Q2753438 |
P1476 | title | 227 Views of RNA: Is RNA Unique in Its Chemical Isomer Space? | |
P478 | volume | 15 |
Q47151831 | Computational exploration of the chemical structure space of possible reverse tricarboxylic acid cycle constituents |
Q92117297 | Deciphering Biosignatures in Planetary Contexts |
Q38958530 | Evolvability Is an Evolved Ability: The Coding Concept as the Arch-Unit of Natural Selection |
Q43881213 | Exploring astrobiology using in silico molecular structure generation |
Q89834398 | Getting Beyond the Toy Domain. Meditations on David Deamer's "Assembling Life" |
Q93195282 | One Among Millions: The Chemical Space of Nucleic Acid-Like Molecules |
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