Evolution of the Protein Synthesis Machinery and Its Regulation

<p>Table of Contents </p> <p>A review on the origin of the different codes for translation: Marco V. José, National University of México, México.</p> <p>Evolution of ribosomes: Williams and Anton Petrov.</p> <p>Origins and early evolution of ribosomes: George Fox, University of Houston.</p> <p>Evolution of ribosomes and ribosomal proteins: Gustavo Caetano-Anolles. </p> Evolution of Class II aminoacyl synthetases from the antisense of the genes for Class I: Charles W. Carter, UNC.<p></p> <p>The translation process during the evolutionary transition from prokaryotes to eukaryotes: Greco Hernández, Vincent G. Osnaya, Alejandra García and Miguel L. García-León, National Institute of Cancer, México.</p> <p>Evolution of translational control: from archaea to eukarya: Dario Benelli, Anna La Teana and Paola Londei, Sapienza University of Rome, Italy.</p> <p>Distribution of elongation family GTPases EF1A and EFL in basal alveolate lineages: P. J. Keeling.</p> <p>Evolution of mRNA structure; the eukaryotic mRNA 5´- and 3´- untranslated regions and their role in translational regulation: </p>Graziano Pesole.<p></p> <p>How lower eukaryotes contribute on our understanding of eIF4E-dependent translation: Daniela Ross and Michael Altmann, University of Bern, Switzerland. </p> <p>Evolution of functionally divergent eIF4Es and their roles in the regulation of mRNA recruitment and developmental processes: Gritta Tettweiler, Nahum Sonenberg, Paul Lasko and Greco Hernández, McGill University, Montreal, Canada, and National Institute of Cancer, Mexico.</p> <p>Evolution of eIF4E and eIF4G interactions in trypanosomes: O. P. de-Melo-Neto</p> <p>Evolution of the functionally divergent eIF4E family members in deuterostomes: Rosemary Jagus, Kate Gillespie, Tsetso Bachvaroff, University of Maryland.</p><p></p> <p>Evolution of the eIF2alpha kinases and translational control: Stephan Rosenberg</p> <p>Evolution and use of eIF2alpha kinases in the apicomplexans and their role in life history of the parasites Plasmodium falciparum and Toxoplasma gondii: Ronald Wek and Sullivan.</p> <p>Evolution of the TOR pathway and translational regulation: M. E. Cardenas.</p> <p>Origin and diversification of eIF4E-binding proteins. Rosemary Jagus and Greco Her</p>nández. University of Maryland and National Institute of cáncer, Mexico.<p></p> <p>Evolution of the protein synthesis machinery in mitochondria: Yolanda Camacho-Villasana, Angélica Zamudio-Ochoa, Rodolfo García-Villegas Aldo E. García-Guerrero and Xochitl Pérez-Martínez, National University of Mexico, Mexico. </p> <p>Relationship between plant translation initiatio</p><p></p><p></p>n factors and RNA viruses: An evolutionary perspective. Tzvetanka Dinkova and León Martínez, National University of Mexico, Mexico.<p></p> <p>Evolution of miRNAs and RNA binding proteins in eukaryotes: Luiz O. Penalva, Marcia Santos and Erzsebet Kokovay, University of Texas.</p> Evolution of silencing foci across eukaryotes: Rolando Rivera-Pomar, Carla Layana and Paola Ferrero, National University of La Plata, Argentina.<p></p> <p>Evolutionary conservation of the machineries coupling RNA transport with translation in eukaryotes: Paula Vazquez-Pianzola, Greco Hernández and Beat Suter, University of Bern, Switzerland, and National Institute of Cancer, Mexico.</p><p><br></p>