Whole-Genome Shotgun Assembly and Analysis of the Genome of <i>Fugu rubripes</i>

Samuel Aparício; Jarrod Chapman; Elia Stupka; Nik Putnam; Jer-Ming Chia; Paramvir Dehal; Alan Christoffels; Sam Rash; Shawn Hoon; Arian F. A. Smit; Maarten D. Sollewijn Gelpke; Jared C. Roach; Tania Wei Ling Oh; Isaac Ho; Marie Vivien Wong; Chris Detter; Frans Verhoef; Paul Predki; Alice Tay; Susan Lucas; Paul Richardson; Sarah Smith; Melody S. Clark; Yvonne J. K. Edwards; Norman A. Doggett; Andrey Zharkikh; Sean V. Tavtigian; Dmitry Pruss; Mary Barnstead; Cheryl Evans; Holly Baden; Justin Powell; Gustavo Glusman; Lee Rowen; Leroy Hood; Yongjun Tan; Greg Elgar; Trevor Hawkins; Byrappa Venkatesh; Daniel S. Rokhsar; Sydney Brenner

doi:10.1126/science.1072104

Whole-Genome Shotgun Assembly and Analysis of the Genome of <i>Fugu rubripes</i>

Samuel Aparício(Hutchison/MRC Research Centre), Jarrod Chapman(Joint Genome Institute), Elia Stupka(A*STAR Graduate Academy), Nik Putnam(Joint Genome Institute), Jer-Ming Chia(A*STAR Graduate Academy), Paramvir Dehal(Joint Genome Institute), Alan Christoffels(A*STAR Graduate Academy), Sam Rash(Joint Genome Institute), Shawn Hoon(A*STAR Graduate Academy), Arian F. A. Smit(Institute for Systems Biology), Maarten D. Sollewijn Gelpke(Joint Genome Institute), Jared C. Roach(Institute for Systems Biology), Tania Wei Ling Oh(A*STAR Graduate Academy), Isaac Ho(Joint Genome Institute), Marie Vivien Wong(A*STAR Graduate Academy), Chris Detter(Joint Genome Institute), Frans Verhoef(A*STAR Graduate Academy), Paul Predki(Joint Genome Institute), Alice Tay(A*STAR Graduate Academy), Susan Lucas(Joint Genome Institute), Paul Richardson(Joint Genome Institute), Sarah Smith(Hutchison/MRC Research Centre), Melody S. Clark(Hutchison/MRC Research Centre), Yvonne J. K. Edwards(Hutchison/MRC Research Centre), Norman A. Doggett(Los Alamos National Laboratory), Andrey Zharkikh(A*STAR Graduate Academy), Sean V. Tavtigian(A*STAR Graduate Academy), Dmitry Pruss(A*STAR Graduate Academy), Mary Barnstead(A*STAR Graduate Academy), Cheryl Evans(A*STAR Graduate Academy), Holly Baden(A*STAR Graduate Academy), Justin Powell(Physiological Society), Gustavo Glusman(Institute for Systems Biology), Lee Rowen(Institute for Systems Biology), Leroy Hood(Institute for Systems Biology), Yongjun Tan(A*STAR Graduate Academy), Greg Elgar(Hutchison/MRC Research Centre), Trevor Hawkins(Joint Genome Institute), Byrappa Venkatesh(A*STAR Graduate Academy), Daniel S. Rokhsar(Joint Genome Institute), Sydney Brenner(Salk Institute for Biological Studies)

Science

August 23, 2002

10.1126/science.1072104

Cited by 1,616

Abstract

The compact genome of Fugu rubripes has been sequenced to over 95% coverage, and more than 80% of the assembly is in multigene-sized scaffolds. In this 365-megabase vertebrate genome, repetitive DNA accounts for less than one-sixth of the sequence, and gene loci occupy about one-third of the genome. As with the human genome, gene loci are not evenly distributed, but are clustered into sparse and dense regions. Some "giant" genes were observed that had average coding sequence sizes but were spread over genomic lengths significantly larger than those of their human orthologs. Although three-quarters of predicted human proteins have a strong match to Fugu, approximately a quarter of the human proteins had highly diverged from or had no pufferfish homologs, highlighting the extent of protein evolution in the 450 million years since teleosts and mammals diverged. Conserved linkages between Fugu and human genes indicate the preservation of chromosomal segments from the common vertebrate ancestor, but with considerable scrambling of gene order.

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