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Biochemical Society transactions
Apr, 2004;32 (Pt 2): 168-71.

The hyperthermophilic origin of life revisited.

D W Schwartzman, C H Lineweaver
Author Information
  1. D W Schwartzman: Department of Biology, Howard University, Washington DC 20059, U.S.A. dws@scs.howard.edu
PMID: 15046564 DOI: 10.1042/bst0320168

Abstract

We revisit the case for the hyperthermophilic scenario for the origin of life and the last common ancestor. Evidence includes studies of phylogenetic trees, rRNA, G and C content, hyperthermophilic proteins, correlations between maximal temperature tolerances and genetic distances, saline stabilization of DNA/RNA, and the inferred climatic temperatures of the early Earth. Although some doubts remain, the case for hot biogenesis and the last common ancestor has gotten stronger.

MeSH Term

Archaea
Bacteria
Cytidine
Earth, Planet
Evolution, Molecular
Evolution, Planetary
Guanosine
Hot Temperature
Life
Origin of Life
Phylogeny
RNA, Ribosomal
Temperature

Chemicals

RNA, Ribosomal
Guanosine
Cytidine
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