Formation of nucleobases in a Miller–Urey reducing atmosphere

Ferus, Martin; Pietrucci, Fabio; Saitta, A. Marco; Knížek, Antonín; Kubelík, Petr; Ivanek, Ondřej; Shestivská, Violetta; Civiš, Svatopluk

doi:10.1073/pnas.1700010114

Cited by 131 publications

(138 citation statements)

References 72 publications

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“…Formamide-based chemistry is a broadly discussed scenario relating to the origin of biomolecules (Saladino et al 2004(Saladino et al , 2012bFerus et al 2011bFerus et al , 2012Ferus et al , 2014Ferus et al , 2017bSaitta & Saija 2014;Pino et al 2015;Šponer et al 2016a,b;Adam et al 2018;Becker et al 2018;Benner et al 2012). Besides the traditional HCNand reducing-atmospheres based biomolecules synthesis (Ferris et al 1974;Yuasa et al 1984;Levy et al 1999;Sutherland 2016;Civiš et al 2017), the current evidence shows that the formamide molecule did not necessary play role of merely starting parent prebiotic precursor, but also it could serve as an intermediate compound in prebiotic synthesis (Ferus et al 2017b).…”

Section: Introductionmentioning

confidence: 74%

“…Besides the traditional HCNand reducing-atmospheres based biomolecules synthesis (Ferris et al 1974;Yuasa et al 1984;Levy et al 1999;Sutherland 2016;Civiš et al 2017), the current evidence shows that the formamide molecule did not necessary play role of merely starting parent prebiotic precursor, but also it could serve as an intermediate compound in prebiotic synthesis (Ferus et al 2017b). In fact, it has been demonstrated that it acted either as substrate or as intermediate in a series of complex reactions starting from very reactive small radicals and leading to a broad palette of biomolecules, for example, all the canonical nucleobases of the genetic code, ribose and other sugars, amino acids or even fatty acids (Saladino et al 2011(Saladino et al , 2015Ferus et al 2015b).…”

Section: Introductionmentioning

confidence: 88%

“…The former variable represents the progress along the chemical transformation (i.e., the geometrical evolution of the system from the reactants toward the products) whereas the latter the distance from an ideal pathway. product of the above-mentioned reaction) is expected to decrease with respect to that of the simpler reactants mainly because of entropic reasons (Ferus et al 2017b). It has recently been shown, indeed, that under those conditions, formamide can be exploited as a key intermediate and parent compound of the synthesis of RNA nucleobases (Ferus et al 2017b).…”

Section: Formamide Free-energy Surfaces (Synthesis From Hnco)mentioning

confidence: 99%

“…During the last decade, various chemical processes depending on the physical and chemical conditions encountered in several astrophysical environments have been discussed as possible sources of the formamide species, such as, for example, HCN hydrolysis (Saladino et al 2012b;Bada et al 2016;Šponer et al 2016b), ammonium-formate dehydration (Šponer et al 2016a) or direct synthesis from CO and NH 3 atmosphere (Ferus et al 2017b). In many cases, however, the proposed formation pathways are poorly constrained both experimentally and theoretically (Taquet et al 2015).…”

Section: Introductionmentioning

confidence: 99%

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HNCO-based synthesis of formamide in planetary atmospheres

Ferus

Laitl

Knížek

et al. 2018

A&A

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Time-resolved Fourier transform infrared emission spectroscopy, Fourier transform absorption infrared spectroscopy, and highresolution UV-ViS emission spectroscopy have been used to characterize the chemistry of isocyanic acid (HNCO) under glow discharge conditions in planetary atmospheres. HNCO mixtures (i.e., composed of di-hydrogen or ammonia) have been investigated in order to unveil the possible reaction pathways leading to the synthesis of the key prebiotic molecule formamide (HCONH 2 ), upon planetary atmospheres containing isocyanic acid in presence of di-hydrogen and, separately, of ammonia. In addition, ab initio molecular dynamics simulations coupled with a modern metadynamics technique have been performed in order to identify the most likely chemical pathways connecting HNCO to formamide. It turned out that the direct hydrogenation of HNCO is thermodynamically favored. Incidentally, the experimental results -supplied by a simplified kinetic model -also proved the favorability of the reaction HNCO + H 2 → HCONH 2 which, moreover, spontaneously takes place in unbiased ab initio molecular dynamics simulations carried out under the effect of intense electric fields.

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Section: Introductionmentioning

confidence: 74%

Section: Introductionmentioning

confidence: 88%

Section: Formamide Free-energy Surfaces (Synthesis From Hnco)mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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HNCO-based synthesis of formamide in planetary atmospheres

Ferus

Laitl

Knížek

et al. 2018

A&A

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“…Though guanine is less abundantly made, it can occur in the same order of concentration as adenine (Borquez et al 2005). Other possible nucleobase sources such as impact on a reducing atmosphere also supply the synthetic impetus for both standard purines (Ferus et al 2017). Most relevantly, adenine and guanine of extraterrestrial origin occur together in multiple carbonaceous chondrite meteorites (Callahan et al 2011).…”

Section: All Nucleobases For Para-templating From One Primordial Syntmentioning

confidence: 99%

Non-Watson–Crick RNA synthesis suited to origin functions

Puthenvedu

Majerfeld

Yarus

2017

RNA

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ImpA precursors. Similar acceleration is not observable in the presence of UppU, CppC, AppG, AppA, or pG alone. Thus, it seems likely that AppA is templated by GppG via a form or forms of G:A base-pairing. AppA also appears, more slowly, via a previously known untemplated second-order chemical route. Such AppA synthesis requires only ordinary near-neutral solutions containing monovalent and divalent salts, and rates are only slightly sensitive to variation in pH. Templated synthesis rates are first order in pA, ImpA, and template GppG; thus third order overall. Therefore, this reaction resembles cross-templating of AppA on poly(U), but is notably slower and less sensitive to temperature. Viewing AppA as a coenzyme analog, GppG templating provides a simpler molecular route, termed para-templating, to encoded chemical functions. Para-templating can also arise from a single, localized nucleobase geosynthetic event which yields purines. It requires only a single backbone-forming chemistry. Thus it may have appeared earlier and served as evolutionary precursor for more complex forms of encoded genetic expression.

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Origin of Life

Jheeta¹,

Chatzitheodoridis²

2023

Conflicting Models for the Origin of Life

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Formation of nucleobases in a Miller–Urey reducing atmosphere

Cited by 131 publications

References 72 publications

HNCO-based synthesis of formamide in planetary atmospheres

HNCO-based synthesis of formamide in planetary atmospheres

Non-Watson–Crick RNA synthesis suited to origin functions

Origin of Life

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