Abstract
The scarcity of the genomic resources for some fish species, in spite of their commercial interest, could retard the positive effects that modern biotechnology can offer to aquaculture industry. Then an effort should be made to reduce, as far as it concerns genomic resources, the gap that separates farming species from "model organisms". In this paper, we present an EST project in which we performed single pass sequencing on 1229 randomly selected clones from a sea bass cDNA library. The sequences are deposited in the NCBI database with the following accession numbers: from , from , from and from . EST cataloguing and profiling of seabass will set the basis for functional genomic research in this species, but will also serve for comparative and environmental genomics, for the identification of polymorphic markers useful, for example, to survey the disease resistance of fish, for the discovery of new molecular markers of exposure and for the production of micro- and macro-arrays.
References
Sep 27, 1994·Proceedings of the National Academy of Sciences of the United States of America·M B SoaresA Efstratiadis
Jun 11, 1996·Proceedings of the National Academy of Sciences of the United States of America·L DiatchenkoP D Siebert
Jul 13, 2000·Nature·R L NaylorM Troell
Feb 13, 2001·Gene·Z JuZ Liu
Feb 22, 2001·Annual Review of Physiology·G L FletcherP L Davies
Nov 28, 2001·European Journal of Biochemistry·M Yotsu-YamashitaT Yasumoto
May 3, 2002·European Journal of Biochemistry·Hiroko ShikeJane C Burns
Aug 27, 2002·Fish & Shellfish Immunology·M Claire H Holland, John D Lambris
Nov 8, 2002·Marine Environmental Research·Lisa J Bain
Apr 17, 2003·Developmental and Comparative Immunology·James L Stafford, Miodrag Belosevic
Sep 17, 2003·Journal of Experimental Zoology. Part A, Comparative Experimental Biology·Andrea KohnDietmar Kültz
Oct 11, 2003·Veterinary Research Communications·R PolettiM Pompei
Dec 19, 2003·Nucleic Acids Research·Minoru KanehisaMasahiro Hattori
Jan 15, 2004·Comparative Biochemistry and Physiology. Part A, Molecular & Integrative Physiology·Daniel J Picard, Patricia M Schulte
Jun 1, 2004·Aquatic Toxicology·Janis S K Peterson, Lisa J Bain
Jun 15, 2004·Comparative Biochemistry and Physiology. Part B, Biochemistry & Molecular Biology·Even MansethRagnar Flengsrud
Aug 3, 2004·BMC Genomics·Alex N Zelensky, Jill E Gready
Oct 22, 2004·Nature·Olivier JaillonHugues Roest Crollius
Feb 18, 2005·Gene·Hidehiro KondoShugo Watabe
Apr 2, 2005·Nature Reviews. Genetics·Andrew R Cossins, Douglas L Crawford
Nov 4, 2005·Molecular Reproduction and Development·P I S PintoA V M Canário
Citations
Dec 14, 2011·Marine Biotechnology·Manuel YúferaGonzalo Martínez-Rodríguez
Jun 5, 2007·Nucleic Acids Research·Yan ZhangZemin Zhang
Apr 14, 2009·BMC Genomics·Elena SarropoulouGeorgios Kotoulas
Jun 6, 2007·BMC Genomics·Susan E DouglasMichael E Reith
Jun 20, 2007·BMC Genomics·Ping LiZhanjiang Liu
Nov 1, 2008·BMC Genomics·Joan CerdàTamara Maes
Jul 11, 2012·BMC Veterinary Research·Jin ChenYaping Wang
Nov 1, 2011·Gene·Xoana TaboadaAna Viñas
Mar 9, 2011·Fish & Shellfish Immunology·Feng ZhouBoping Ye
Jul 30, 2011·Marine Genomics·Bruno LouroAdelino V M Canario
Oct 13, 2009·Veterinary Immunology and Immunopathology·Hidehiro KondoTakashi Aoki
Mar 31, 2009·Fish & Shellfish Immunology·Lingling WangXiming Guo
Dec 1, 2007·Comparative Biochemistry and Physiology. Part D, Genomics & Proteomics·Yanhong WeiJiayin Dai
Oct 3, 2008·Animal Genetics·D A ChistiakovG Kotoulas
Feb 1, 2008·Gene·Valentina ChiniRosalba Gornati