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Phosphorus in prebiotic chemistry.

Alan W Schwartz1

  • 1Radboud University Nijmegen, Nijmegen 6500, The Netherlands. alan@sci.ru.nl

Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences
|September 30, 2006
PubMed
Summary

The prebiotic synthesis of phosphorus compounds on early Earth is feasible. New research shows viable pathways and potential extraterrestrial sources overcome the mineral apatite

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Area of Science:

  • Prebiotic chemistry
  • Astrobiology
  • Geochemistry

Background:

  • The origin of life requires phosphorus-containing compounds like nucleotides.
  • Apatite, the primary phosphate mineral, was historically considered insoluble and unreactive for prebiotic chemistry.
  • The "phosphorus problem" posed a significant challenge to theories of early life formation.

Purpose of the Study:

  • To investigate geologically plausible sources and chemical pathways for prebiotic phosphorus incorporation.
  • To re-evaluate the role of apatite in prebiotic synthesis.
  • To explore potential extraterrestrial contributions of reactive phosphorus.

Main Methods:

  • Review of recent findings on apatite reactivity.
  • Analysis of demonstrated chemical pathways for phosphorus incorporation.
  • Consideration of extraterrestrial phosphorus sources.

Main Results:

  • At least two chemical pathways have been identified that circumvent the low solubility and reactivity of apatite.
  • Recent studies suggest extraterrestrial sources may provide reactive phosphorus.
  • The "phosphorus problem" is no longer considered an insurmountable obstacle.

Conclusions:

  • Prebiotic synthesis of essential phosphorus compounds is achievable through newly understood geological and chemical processes.
  • Both terrestrial and extraterrestrial sources offer viable solutions to the early Earth's phosphorus availability.
  • The formation of nucleotides and polynucleotides on the primitive Earth is more plausible than previously assumed.

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