This is so far the protocol of the evolutionary principle of life on Earth. This process since “not live” to “live” requires a neutral intermediary: the prion protein, or prion, is without cell and transferable skills these features make it to be an ideal candidate to be the first catalyst for life on our planet.
More recent theories suggest that prions are proteins modified under certain circumstances such as changes in temperature, pressure or pH favored fall to a very stable energy level, allowing his return for three-dimensional conformation (Prusiner 1998). The research aimed to describe the nature of prions and aggregates forming showed LB-100 mw prion protein-organisms in their natural state, in a manner unrelated to illness (Weissmann 2004). Models in Fungi, particularly in Alisertib clinical trial Sacharomyces cerevisiae, have allowed observing the functions that could have prions in the life of normal cells. In these selleck chemical organisms, prions functions as the metabolic regulation of nitrogen. They also act as mechanisms of heredity phenotypes, in the role of evolutionary catalysts, and increasing genetic diversity
by introducing new regions at the ends of the genome (i.e., Weissmann, et al. 2001). The ability to store information conformational of prions makes them eligible to take part in cellular processes that require stability for long periods and it is possible that they are primitive cellular mechanisms. It is likely that prions
have been involved and participate in processes like the formation of the chemical long-term memory, immunological memory and evolution of the genome of many organisms (i.e., Farquhar, et al. 1983). Ultimately, Clomifene prions are a means to update and transmit heritable characteristics confirmed that genes are not the only elements involved in inheritance and storage of information, so that while they do the genes in the genome, prions do so at of proteome for modifying an individual’s life and transmit these characters acquired vertically and horizontally allowing the evolution of life (Shorter and Lindquist 2005). Bowler, Peter J. (2003). Evolution:The History of an Idea. University of California Press. Farquhar C, Somerville R and Bruce M (1998). “Straining the prion hypothesis”". Nature 391: 345–346. Prusiner SB (1998). “Prions”". Proc. Natl. Acad. Sci. USA 95 (23): 13363–83 Shorter J, Lindquist S (2005). “Prions as adaptive conduits of memory and inheritance”. Nat Rev Genet 6 (6): 435–50 Weissmann C, Enari M, Klöhn PC, Rossi D, Flechsig E (2002). “Transmission of prions”. Proc. Natl. Acad. Sci. U.S.A. 99 Suppl 4: 16378–83. Weissmann, C (2004). “The State of the Prion”. Nature Reviews Microbiology 2: 861–871. E-mail: jebuenop@unal.edu.