Hypothesis for Molecular Evolution in the Pre-Cellular Stage of the Origin of Life.

Abstract

Life was originated from inorganic world and had experienced a long period of evolution in about 3.8 billion years. The time for emergence of the pioneer creations on Earth is debatable nowadays, and how the scenario for the prebiotic molecular interactions is still mysterious. Before the spreading of cellular organisms, chemical evolution was perhaps prevailing for millions of years, in which inorganic biosynthesis was ultimately replaced by biochemical reactions. Understanding the major molecular players and their interactions toward cellular life is fundamental for current medical science and extraterrestrial life exploration. In this review, we propose a road map for the primordial molecular evolution in early Earth, which probably occurred adjacent to hydrothermal vents with a strong gradient of organic molecules, temperature, and metal contents. Natural selection of the macromolecules with strong secondary structures and catalytic centers is associated with decreasing of overall entropy of the biopolymers. Our review may shed lights into the important selection of gene-coding RNA with secondary structures from large amounts of random biopolymers and formation of ancient ribosomes with biological machines supporting the basic life processes. Integration of the free environmental ribosomes by the early cellular life as symbiotic molecular machines is probably the earliest symbiosis on Earth.