TY - CPAPER T1 - Recent advances in EST sequencing in Crassostrea gigas: towards the sequencing of the Pacific oyster genome A1 - Boudry,Pierre A1 - Huvet,Arnaud A1 - Lapegue,Sylvie A1 - Sauvage,Christopher A1 - Tanguy,A. A1 - Moraga,D. A1 - Goostrey,A. A1 - Prunet,P. A1 - Boulo,Viviane A1 - Gueguen,Y. A1 - Moal,Jeanne A1 - Fleury,Elodie A1 - Samain,Jean-Francois A1 - Mathieu,M. A1 - Favrel,P. UR - https://archimer.ifremer.fr/doc/00000/3414/ KW - Characteristics KW - Genome size KW - Genome KW - Crassostrea gigas KW - Oyster KW - Genetic N2 - Rationale for EST and genome sequencing of the Pacific oyster: • its membership of the Lophotrochozoa, an little studied branch of the Eukaryotes, • its worldwide aquacultural importance (4.2 million metric tons, worth 3.5 billion US dollars), • its high fecundity, with concomitantly high DNA polymorphism, • its use as a biosensor of coastal pollution. In 2004, an international community of biologists, the Oyster Genome Consortium (OGC) led by D. Hedgecock (University of Southern California) and uniting 70 participants from 10 countries, first presented the Pacific oyster Crassostrea gigas as a genome-sequencing candidate to Joint Genome Institute (JGI, USA) (Hedgecock et al., 2005). Besides this project (that remains to be accepted), several EST sequencing projects have been successfully initiated at JGI, Genoscope (France) and the Max Planck Institute (Germany). These will considerably enlarge the first public database specifically dedicated to C. gigas (Gueguen et al., 2003; www.ifremer.fr/GigasBase). Y1 - 2007/04/15 CY - Marine Genonics Europe Exploratory Workshop ID - 3414 ER -