Prebiotic Chemistry and Chemical Evolution of Nucleic Acids

Name: Prebiotic Chemistry and Chemical Evolution of Nucleic Acids
Author: César Menor-Salván

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Gebonden, blz. | Engels

Springer International Publishing | e druk, 2018

ISBN13: 9783319935836

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Springer International Publishing e druk, 2018 9783319935836

Onderdeel van serie Nucleic Acids and Molecular Biology

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The origin of life is one of the biggest unsolved scientific questions. This book deals with the formation and first steps of the chemical evolution of nucleic acids, including the chemical roots behind the origin of their components from the simplest sources in a geochemical context. Chemical evolution encompasses the chemical processes and interactions conducive to self-assembly and supramolecular organization, leading to an increase of complexity and the emergence of life.

The book starts with a personal account of the pioneering work of Stanley Miller and Jeffrey Bada on the Chemistry of Origins of Life and how the development of organic chemistry beginning in the 19th century led to the emergence of the field of prebiotic chemistry, situated at the frontier between organic, geo- and biochemistry. It then continues reviewing in tutorial manner current central topics regarding the organization of nucleic acids: the origin of nucleobases and nucleosides, their phosphorylation and polymerization and ultimately, their self-assembly and supramolecular organization at the inception of life.

Specificaties

ISBN13:9783319935836

Taal:Engels

Bindwijze:gebonden

Uitgever:Springer International Publishing

Serie:Nucleic Acids and Molecular Biology

Inhoudsopgave

<div>Introduction: Reminiscing about Stanley Miller and Prebiotic Chemistry</div><div>Jeff Bada  (jbada@ucsd.edu)<br><br></div><div>1. From the dawn of Organic Chemistry to Astrobiology: an historical perspective on the Prebiotic Chemistry of nucleobases</div><div>Cesar  Menor-Salvan (cmenorsalvan@gmail.com)<br><br></div><div>2. Decomposition and condensation of nucleotides in hydrothermal fields.</div><div>Bruce Damer and David Deamer (deamer@soe.ucsc.edu)<br><br></div>3. Nucleobases on the primitive Earth:  their sources and stability<br><div>Jim Cleaves and Jeff Bada (jbada@ucsd.edu)<br><br></div><div>4. The Case for Mineralogy in the Origins of Life</div><div>Hyo Joong Kim and Steven Benner (sbenner@ffame.org)<br><br></div>5. Urea: a common reagent behind the origin of bases, nucleosides and nucleotides.<div>Cesar Menor-Salvan<br><br></div><div>6. -title pending-</div>David Fialho and Nick Hud (nick.hud@chemistry.gatech.edu). Georgia Institute of Technology.<div><br></div><div>7. The origin of the ionized linker: Geochemical predestination for phosphate?<br>Matthew Pasek (mpasek@usf.edu) University of South Florida<br></div><div><br>8. Prebiotic phosphorylation</div><div>Bradley Burcar (Bradley.burcar@chemistry.gatech.edu) Georgia Institute of Technology</div><div><br>9. The Chemical Space of Nucleic Acids</div><div>James H Cleaves (henderson.cleaves@gmail.com)</div><br>10. RNA and Protein: The Molecular Symbiosis at the Core of Life<div>Anton Petrov, Jessica C Bowman and Loren D. Williams (loren.williams@chemistry.gatech.edu). Georgia Institute of Technology</div><div><br>11. On the origin of interactions between nucleic acids and peptides</div><div>Irene Chen (chen@chem.ucsb.edu) and Celia Blanco de Torres.  University of California-Santa Barbara.</div><div><br>12. Self-Replication and Information Transfer of Nucleic-Acids Mediated by Non-Aqueous Environments.</div>Isaac Gallego (isgaoss@gmail.com ) and Christine He<div><br></div><div><br><div><br></div></div>

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