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Literature DB >> 11002886

Reduction and activation of phosphate on the primitive earth.

Abstract

Electrical discharges in water-saturated N2 containing 1-10% CH4 were shown earlier to reduce phosphate to phosphite. This mechanism was suggested as a possible source of water-soluble phosphorus-containing compounds in volcanic environments on the prebiotic Earth. We have now extended our investigations to gas mixtures in which CO2 and N2 are the main components, and studied the effect of introducing small amounts of H2 and CO. We show that surprisingly high conversions to phosphite occur in reducing mixtures and that several percent reduction of apatite occurs even in the presence of as little as 1% each of H2 and CO. We were also able to confirm a previous report of polyphosphate production as a result of heating the mineral apatite in the presence of other minerals.

Entities: Chemical Gene

Mesh：

Substances：

Year: 2000 PMID： 11002886 DOI： 10.1023/a:1006700512902

Source DB: PubMed Journal: Orig Life Evol Biosph ISSN： 0169-6149 Impact factor: 1.950

12 in total

1. Mineral induced phosphorylation of glycolate ion--a metaphor in chemical evolution.

Authors: V Kolb; S Zhang; Y Xu; G Arrhenius
Journal: Orig Life Evol Biosph Date: 1997-12 Impact factor: 1.950

2. Prebiotic nucleotide synthesis-demonstration of a geologically plausible pathway.

Authors: A W Schwartz; T Bisseling; G J Chittenden
Journal: Orig Life Date: 1975 Jan-Apr

3. Struvite and prebiotic phosphorylation.

Authors: G J Handschuh; L E Orgel
Journal: Science Date: 1973-02-02 Impact factor: 47.728

4. Reactive Phosphonic Acids as Prebiotic Carriers of Phosphorus

Authors:
Journal: J Mol Evol Date: 1997-03 Impact factor: 2.395

5. Mineral induced formation of sugar phosphates.

Authors: S Pitsch; A Eschenmoser; B Gedulin; S Hui; G Arrhenius
Journal: Orig Life Evol Biosph Date: 1995-08 Impact factor: 1.950

6. Volcanic production of polyphosphates and its relevance to prebiotic evolution.

Authors: Y Yamagata; H Watanabe; M Saitoh; T Namba
Journal: Nature Date: 1991-08-08 Impact factor: 49.962

7. Are polyphosphates or phosphate esters prebiotic reagents?

Authors: A D Keefe; S L Miller
Journal: J Mol Evol Date: 1995-12 Impact factor: 2.395

8. A plausibly prebiotic synthesis of phosphonic acids.

Authors: R M de Graaf; J Visscher; A W Schwartz
Journal: Nature Date: 1995-11-30 Impact factor: 49.962

9. Mineral catalysis of a potentially prebiotic aldol condensation.

Authors: R M De Graaf; J Visscher; Y Xu; G Arrhenius; A W Schwartz
Journal: J Mol Evol Date: 1998-11 Impact factor: 2.395

10. Urea-inorganic phosphate mixtures as prebiotic phosphorylating agents.

Authors: R Lohrmann; L E Orgel
Journal: Science Date: 1971-02-05 Impact factor: 47.728

8 in total

1. Thermal synthesis of nucleoside H-phosphonates under mild conditions.

Authors: R M De Graaf; Alan W Schwartz
Journal: Orig Life Evol Biosph Date: 2005-02 Impact factor: 1.950

2. Search for the most primitive membranes: some remaining problems.

Authors: Yoichi Nakatani; Nigel Ribeiro; Stéphane Streiff; Laurent Désaubry; Guy Ourisson
Journal: Orig Life Evol Biosph Date: 2012-10-19 Impact factor: 1.950

3. The rates of hydrolysis of thymidyl-3',5'-thymidine-H-phosphonate: the possible role of nucleic acids linked by diesters of phosphorous acid in the origins of life.

Authors: J R Peyser; J P Ferris
Journal: Orig Life Evol Biosph Date: 2001 Aug-Oct Impact factor: 1.950

Review 4. Primitive genetic polymers.

Authors: Aaron E Engelhart; Nicholas V Hud
Journal: Cold Spring Harb Perspect Biol Date: 2010-05-12 Impact factor: 10.005