We describe the one-pot synthesis of a large panel of nucleic bases and related compounds from formamide in the presence of iron sulfur and iron-copper sulfur minerals as catalysts. The major products observed are purine, 1H-pyrimidinone, isocytosine, adenine, 2-aminopurine, carbodiimide, urea, and oxalic acid. Isocytosine and 2-aminopurine may recognize natural nucleobases by Watson-Crick and reverse Watson-Crick interactions, thus suggesting novel scenarios for the origin of primordial nucleic acids. Since the major problem in the origin of informational polymers is the instability of their precursors, we also investigate the effects of iron sulfur and iron-copper sulfur minerals on the stability of ribooligonucleotides in formamide and in water. All of the iron sulfur and iron-copper sulfur minerals stimulated degradation of RNA. The relevance of these findings with respect to the origin of informational polymers is discussed.

Saladino, R., Neri, V., Crestini, C., Costanzo, G., Graciotti, M., Di Mauro, E. (2008). Synthesis and degradation of nucleic acid components by formamide and iron sulfur minerals. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 130(46), 15512-15518 [10.1021/ja804782e].

Synthesis and degradation of nucleic acid components by formamide and iron sulfur minerals

CRESTINI, CLAUDIA;
2008-01-01

Abstract

We describe the one-pot synthesis of a large panel of nucleic bases and related compounds from formamide in the presence of iron sulfur and iron-copper sulfur minerals as catalysts. The major products observed are purine, 1H-pyrimidinone, isocytosine, adenine, 2-aminopurine, carbodiimide, urea, and oxalic acid. Isocytosine and 2-aminopurine may recognize natural nucleobases by Watson-Crick and reverse Watson-Crick interactions, thus suggesting novel scenarios for the origin of primordial nucleic acids. Since the major problem in the origin of informational polymers is the instability of their precursors, we also investigate the effects of iron sulfur and iron-copper sulfur minerals on the stability of ribooligonucleotides in formamide and in water. All of the iron sulfur and iron-copper sulfur minerals stimulated degradation of RNA. The relevance of these findings with respect to the origin of informational polymers is discussed.
2008
Pubblicato
Rilevanza internazionale
Articolo
Sì, ma tipo non specificato
Settore CHIM/03 - CHIMICA GENERALE E INORGANICA
English
Con Impact Factor ISI
ABS resins; Amides; Copper; Degradation; Mineralogy; Minerals; Nucleic acids; Polymers; RNA; Urea; Aminopurine; Carbodiimide; Informational polymers; Isocytosine; Natural nucleobases; One pots; Oxalic acids; Related compounds; Synthesis of; Sulfur; 1h pyrimidinone; 2 aminopurine; adenine; cyanamide; formamide; iron copper sulfur; iron sulfur; isocytosine; mineral; nucleic acid; oxalic acid; prebiotic agent; purine; RNA; unclassified drug; urea; water; article; catalyst support; chemical reaction; flow kinetics; molecular dynamics; one pot synthesis; polymerization; protein degradation; protein stability; protein synthesis; RNA analysis; WAtson Crick reaction; Catalysis; Copper; Esters; Formamides; Iron; Minerals; Molecular Structure; Nucleic Acids; Sulfur; Water
Saladino, R., Neri, V., Crestini, C., Costanzo, G., Graciotti, M., Di Mauro, E. (2008). Synthesis and degradation of nucleic acid components by formamide and iron sulfur minerals. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 130(46), 15512-15518 [10.1021/ja804782e].
Saladino, R; Neri, V; Crestini, C; Costanzo, G; Graciotti, M; Di Mauro, E
Articolo su rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/30721
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