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Early evolution: prokaryotes, the new kids on the block
Bioessays 21 (10):880-889 (1999)
Abstract
Prokaryotes are generally assumed to be the oldest existing form of life on earth. This assumption, however, makes it difficult to understand certain aspects of the transition from earlier stages in the origin of life to more complex ones, and it does not account for many apparently ancient features in the eukaryotes. From a model of the RNA world, based on relic RNA species in modern organisms, one can infer that there was an absolute requirement for a high-accuracy RNA replicase even before proteins evolved. In addition, we argue here that the ribosome (together with the RNAs involved in its assembly) is so large that it must have had a prior function before protein synthesis. A model that connects and equates these two requirements (high-accuracy RNA replicase and prior function of the ribosome) can explain many steps in the origin of life while accounting for the observation that eukaryotes have retained more vestiges of the RNA world. The later derivation of prokaryote RNA metabolism and genome structure can be accounted for by the two complementary mechanisms of r-selection and thermoreduction. BioEssays 21:880–889, 1999. © 1999 John Wiley & Sons, Inc.My notes
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Citations of this work
An interpretive review of the origin of life research.David Penny - 2005 - Biology and Philosophy 20 (4):633-671.
More than the sum of their parts: On the evolution of proteins from peptides.Johannes Söding & Andrei N. Lupas - 2003 - Bioessays 25 (9):837-846.
Photosynthetic Systems Suggest an Evolutionary Pathway to Diderms.Scott O. Rogers - 2020 - Acta Biotheoretica 69 (3):343-358.
Prebiotic world, macroevolution, and Darwin’s theory: a new insight.Luis Boto, Ignacio Doadrio & Rui Diogo - 2009 - Biology and Philosophy 24 (1):119-128.
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