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  1. (1 other version)How did LUCA make a living? Chemiosmosis in the origin of life.Nick Lane, John F. Allen & William Martin - 2010 - Bioessays 32 (4):271-280.
    Despite thermodynamic, bioenergetic and phylogenetic failings, the 81‐year‐old concept of primordial soup remains central to mainstream thinking on the origin of life. But soup is homogeneous in pH and redox potential, and so has no capacity for energy coupling by chemiosmosis. Thermodynamic constraints make chemiosmosis strictly necessary for carbon and energy metabolism in all free‐living chemotrophs, and presumably the first free‐living cells too. Proton gradients form naturally at alkaline hydrothermal vents and are viewed as central to the origin of life. (...)
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  • Bacterial ion channels and their eukaryotic homologues.Piotr Koprowski & Andrzej Kubalski - 2001 - Bioessays 23 (12):1148-1158.
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  • New insights into the nucleophosmin/nucleoplasmin family of nuclear chaperones.Lindsay J. Frehlick, José María Eirín-López & Juan Ausió - 2007 - Bioessays 29 (1):49-59.
    Basic proteins and nucleic acids are assembled into complexes in a reaction that must be facilitated by nuclear chaperones in order to prevent protein aggregation and formation of non‐specific nucleoprotein complexes. The nucleophosmin/nucleoplasmin (NPM) family of chaperones [NPM1 (nucleophosmin), NPM2 (nucleoplasmin) and NPM3] have diverse functions in the cell and are ubiquitously represented throughout the animal kingdom. The importance of this family in cellular processes such as chromatin remodeling, genome stability, ribosome biogenesis, DNA duplication and transcriptional regulation has led to (...)
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