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Lozoya-Colinas A, Clifton BE, Grover MA, Hud NV. Urea and Acetamide Rich Solutions Circumvent the Strand Inhibition Problem to Allow Multiple Rounds of DNA and RNA Copying. Chembiochem 2021; 23:e202100495. [PMID: 34797020 DOI: 10.1002/cbic.202100495] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/18/2021] [Revised: 11/18/2021] [Indexed: 11/08/2022]
Abstract
For decades prebiotic chemists have attempted to achieve replication of RNA under prebiotic conditions with only limited success. One of the long-recognized impediments to achieving true replication of a duplex (copying of both strands) is the so-called strand inhibition problem. Specifically, while the two strands of an RNA (or DNA) duplex can be separated by heating, upon cooling the strands of a duplex will reanneal before mononucleotide or oligonucleotide substrates can bind to the individual strands. Here we demonstrate that a class of plausible prebiotic solvents, when coupled with thermal cycling and varying levels of hydration, circumvents the strand inhibition problem, and allows multiple rounds of information transfer from both strands of a duplex (replication). Replication was achieved by simultaneous ligation of oligomers that bind to their templates with the aid of the solvents. The solvents used consisted of concentrated solutions of urea and acetamide in water (UAcW), components that were likely abundant on the early Earth. The UAcW solvent system favors the annealing of shorter strands over the re-annealing of long strands, thereby circumventing strand inhibition. We observed an improvement of DNA and RNA replication yields by a factor of 100× over aqueous buffer. Information transfer in the UAcW solvent system is robust, being achieved for a range of solvent component ratios, various drying conditions, and in the absence or presence of added salts.
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Affiliation(s)
- Adriana Lozoya-Colinas
- NSF/NASA Center for Chemical Evolution, GA 30332, Atlanta, USA.,School of Chemistry & Biochemistry, Georgia Institute of Technology, 901 Atlantic Drive, GA 30332, Atlanta, USA
| | - Bryce E Clifton
- NSF/NASA Center for Chemical Evolution, GA 30332, Atlanta, USA.,School of Chemistry & Biochemistry, Georgia Institute of Technology, 901 Atlantic Drive, GA 30332, Atlanta, USA
| | - Martha A Grover
- NSF/NASA Center for Chemical Evolution, GA 30332, Atlanta, USA.,School of Chemical & Biomolecular Engineering, Georgia Institute of Technology, 311 Ferst Drive NW, GA 30332, Atlanta, USA
| | - Nicholas V Hud
- NSF/NASA Center for Chemical Evolution, GA 30332, Atlanta, USA.,School of Chemistry & Biochemistry, Georgia Institute of Technology, 901 Atlantic Drive, GA 30332, Atlanta, USA
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Bizzarri BM, Saladino R, Delfino I, García-Ruiz JM, Di Mauro E. Prebiotic Organic Chemistry of Formamide and the Origin of Life in Planetary Conditions: What We Know and What Is the Future. Int J Mol Sci 2021; 22:ijms22020917. [PMID: 33477625 PMCID: PMC7831497 DOI: 10.3390/ijms22020917] [Citation(s) in RCA: 11] [Impact Index Per Article: 3.7] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/11/2020] [Revised: 01/14/2021] [Accepted: 01/17/2021] [Indexed: 11/18/2022] Open
Abstract
The goal of prebiotic chemistry is the depiction of molecular evolution events preceding the emergence of life on Earth or elsewhere in the cosmos. Plausible experimental models require geochemical scenarios and robust chemistry. Today we know that the chemical and physical conditions for life to flourish on Earth were at work much earlier than thought, i.e., earlier than 4.4 billion years ago. In recent years, a geochemical model for the first five hundred million years of the history of our planet has been devised that would work as a cradle for life. Serpentinization processes in the Hadean eon affording self-assembled structures and vesicles provides the link between the catalytic properties of the inorganic environment and the impressive chemical potential of formamide to produce complete panels of organic molecules relevant in pre-genetic and pre-metabolic processes. Based on an interdisciplinary approach, we propose basic transformations connecting geochemistry to the chemistry of formamide, and we hint at the possible extension of this perspective to other worlds.
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Affiliation(s)
- Bruno Mattia Bizzarri
- Ecological and Biological Sciences Department (DEB), University of Tuscia, Via S. Camillo de Lellis snc, 01100 Viterbo, Italy; (B.M.B.); (I.D.); (E.D.M.)
| | - Raffaele Saladino
- Ecological and Biological Sciences Department (DEB), University of Tuscia, Via S. Camillo de Lellis snc, 01100 Viterbo, Italy; (B.M.B.); (I.D.); (E.D.M.)
- Correspondence: (R.S.); (J.M.G.-R.)
| | - Ines Delfino
- Ecological and Biological Sciences Department (DEB), University of Tuscia, Via S. Camillo de Lellis snc, 01100 Viterbo, Italy; (B.M.B.); (I.D.); (E.D.M.)
| | - Juan Manuel García-Ruiz
- Laboratorio de Estudios Cristalográficos, Instituto Andaluz de Ciencias de la Tierra, Consejo Superior de Investigaciones Científicas–Universidad de Granada, Avenida de las Palmeras 4, Armilla, 18100 Granada, Spain
- Correspondence: (R.S.); (J.M.G.-R.)
| | - Ernesto Di Mauro
- Ecological and Biological Sciences Department (DEB), University of Tuscia, Via S. Camillo de Lellis snc, 01100 Viterbo, Italy; (B.M.B.); (I.D.); (E.D.M.)
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García-Ruiz JM, van Zuilen MA, Bach W. The convergence of minerals and life: Reply to comments on "Mineral self-organization on a lifeless planet". Phys Life Rev 2020; 34-35:99-104. [PMID: 32868160 DOI: 10.1016/j.plrev.2020.07.004] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 07/15/2020] [Accepted: 07/21/2020] [Indexed: 12/14/2022]
Affiliation(s)
- Juan Manuel García-Ruiz
- Laboratorio de Estudios Cristalográficos, Instituto Andaluz de Ciencias de la Tierra, CSIC-Universidad de Granada, Av. de las Palmeras 4, Armilla (Granada), Spain.
| | - Mark A van Zuilen
- Equipe Géomicrobiologie, Université de Paris, Institut de Physique du Globe de Paris, CNRS, F-75005 Paris, France
| | - Wolfgang Bach
- Geoscience Department and MARUM, University of Bremen, Klagenfurter Str. 2, 28359 Bremen, Germany
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The kinetics and mechanisms of reactions in the flow systems glycine-sodium trimetaphosphate-imidazoles: the crucial role of imidazoles in prebiotic peptide syntheses. Amino Acids 2020; 52:811-821. [PMID: 32372392 DOI: 10.1007/s00726-020-02854-z] [Citation(s) in RCA: 2] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/30/2019] [Accepted: 04/30/2020] [Indexed: 12/12/2022]
Abstract
The kinetics of oligopeptides formation in the flow systems glycine-sodium trimetaphosphate-imidazole/N-methylimidazole at thermocyclic regime has been investigated by HPLC and 31P NMR methods in the ranges of temperature from 45 to 90 °C and pH from 8.5 to 11.5. Detailed reaction mechanisms have been proposed and justified by quantum chemical calculations using DFT method at the CAM-B3LYP/TZVP level with accounting solvent effect by the C-PCM model. A new imidazole catalysis mechanism by which imidazole reacts with cyclic N,O-phosphoryl glycine giving N-imidazolyl-O-glycyl phosphate as a key intermediate was proposed and validated. It is emphasized that while in the absence of imidazoles, prebiotic activation of amino acids occurs at the N-terminus, in the presence of imidazoles it shifts to the O-terminus. This means that in the peptide elongation N-imidazolyl-O-aminoacyl phosphates play in prebiotic systems the outstanding role similar to that of aminoacyl adenylates formed at the ATP and aminoacyl-tRNA synthetases presence in biosystems. The new crucial role of imidazoles in prebiotic evolution has been noticed. The systems used and modes of their conversion can be good models for prebiotic peptide syntheses in a flow thermocyclic regime.
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