Showing results 5861 to 5880 on 6706 in total
Pascale C Chevret, Catherine Hänni
L. Say
Lilia Brinza, José Viñuelas, Ludovic Cottret, Federica Calevro, Yvan Rahbé, Gérard Febvay, Gabrielle Duport, Stefano Colella, Andréane Rabatel, Christian Gautier, Jean-Michel Fayard, Marie-France Sagot, Hubert Charles
J.-G. Wang, J.A. Staessen, S. Franklin, R. Fagard, François Gueyffier
J.-Y. Bobin, C. Zinzindohoue, S. Isaac, M. Saadat, Pascal Roy
Maryline Pellerin, Sonia Said, Jean-Michel Gaillard
Alice de Boyer Des Roches, Isabelle Veissier, Emmanuelle Gilot-Fremont, Jacques Capdeville, Luc Mounier
Sandrine Charles, Aude Ratier, Virgile Baudrot, Gauthier Multari, Aurélie Siberchicot, Dan Wu, Christelle Lopes
V. Miele, Y. Slaoui, A. Rebai
Damien M. de Vienne
Damien M. de Vienne
Nurulhusna Ab Hamid, Neal Alexander, Remco Suer, Nazni Wasi Ahmed, Rose Nani Mudin, Topek Omar, Rahmat Dapari, Shahrom Nor Azian Che Mat Din, Roslinda Abdul Rahman, Ropiah Jaraee, Frederic Baur, Frederic Schmitt, Nick Hamon, Jason Richardson, Carole Langlois-Jacques, Muriel Rabilloud, Mitra Saadatian-Elahi
The reduction of DNA sequencing costs over recent years has enabled whole genome sequencing to become relatively affordable for most organisms. However, sequencing many individuals, from multiple populations can still be financially limiting and require extensive computational power. Since its development in 2008, restriction-site associated DNA (RAD) sequencing has offered an effective method for sampling non-random, interspersed sequences across a genome. In brief, the approach involves digesting genomic DNA with a restriction enzyme, ligating adapters to these sites and sequencing the fragments with illumina technology. Publications based on the RAD method have addressed many biological questions ranging from population genetics to linkage mapping and phylogeography, using 10's or 100's of individuals from broods or wild collections. Here I will provide an overview of the RAD method, and highlight various approaches to analyze RAD datasets. Data generated by myself and colleagues, from tropical butterflies, pest moths and polymorphic ladybirds, will be presented to demonstrate our approach for assembling genetic linkage maps (with and without a reference genome), bulked segregant analysis, genome wide phylogenies and comparative genomics. Although there are both benefits and drawbacks to RAD sequencing, it is a universal genetic approach that could be considered for many organisms.
Sébastien Lambert, Anne Thébault, Sophie Rossi, Pascal Marchand, Elodie Petit, Carole Toïgo, Emmanuelle Gilot-Fromont
E. Morignat, T. Baron, J-L. Vinard, A-G. Biacabe, J-Y. Madec, A. Bencsik, S. Debeer, D. Calavas, T. Garnier, C. Ducrot, Pascal Roy, M. Eliazsewicz
Jean-Pierre Flandrois, Céline Brochier-Armanet, Jérôme Briolay, Danis Abrouk, Guillaume P Schwob, Philippe Normand, Maria P. Fernandez
Pierre Caumette, Céline Brochier-Armanet, Philippe Normand
Pierre Caumette, Céline Brochier-Armanet, Philippe Normand
Paulo Vieira Milreu, Cecilia Coimbra Klein, Ludovic Cottret, Vicente Acuña, Etienne E. Birmelé, Michele Borassi, Christophe Junot, Alberto Marchetti-Spaccamela, Andrea Marino, Leen Stougie, Fabien Jourdan, Pierluigi Crescenzi, Vincent Lacroix, Marie-France Sagot
Vicente Acuña, Etienne Birmele, Ludovic Cottret, Pierluigi Crescenzi, Fabien Jourdan, Vincent Lacroix, Alberto Marchetti-Spaccamela, Andrea Marino, Paulo Vieira Milreu, Marie-France Sagot, Leen Stougie