Title | Intercalation-mediated synthesis and replication: a new approach to the origin of life. |
Publication Type | Journal Article |
Year of Publication | 2000 |
Authors | Hud, NV, Anet, FA |
Journal | J Theor Biol |
Volume | 205 |
Issue | 4 |
Pagination | 543-62 |
Date Published | 2000 Aug 21 |
ISSN | 0022-5193 |
Keywords | Animals, Biogenesis, Computer Simulation, Evolution, Molecular, Models, Genetic, RNA |
Abstract | We propose that a molecular midwife, a flat molecule approximately 10 Ax10 A with two hydrophobic faces, was essential to the origin of life. This molecule was positively charged, water soluble and did not strongly associate with itself in solution. It may have been a derivative of phthalocyanine that no longer exists on the Earth today, and might have been formed solely from hydrogen cyanide and formaldehyde. The midwife tended to intercalate between side groups (bases, similar to those in RNA) of polymers to form stacks, which incorporated bare bases. The midwife alternated in these stacks with hydrogen-bonded tetrads of bases. Under conditions of low water activity, as in a desert during the day, bare bases in the stacks were joined together by neutral and chemically heterogeneous backbones of no fixed chirality. The components of the backbones were the products of the formose reaction of formaldehyde, and were involved in the reversible formation of N -glycosides and acetals catalysed by divalent metal ions. The final product of this assemblage was a fully intercalated quadruplex of four information-containing polymer strands (four proto -RNA molecules). This process constituted replication of the original polymer that had seeded the formation of the stack. The stack structure ensured that the polymer's base sequence was replicated faithfully despite the lack of both homochirality and chemical homogeneity in the backbone. At night, water from condensing dew would suddenly come in contact with these products, quenching all chemical reactions and releasing midwife molecules and single- or double-stranded proto-RNA. Evaporation of water during the day then gave new stacks containing one or two proto-RNA strands, bare bases, and midwife molecules, which could begin a new replication cycle. Our model also allows for the generation of new stacks and the extension of existing ones, without restricting the base sequence of either, thereby providing a source of genetic information. The proto-RNA replication cycle is driven purely by concentration changes caused by the Sun and the rotation of the Earth. We propose that this system as a whole could have gradually evolved into the RNA World. |
DOI | 10.1006/jtbi.2000.2084 |
Alternate Journal | J. Theor. Biol. |
PubMed ID | 10931751 |