

Draft Fugu genome will help find human genes.
A draft sequence of the puffer-fish genome is complete. The fishs compact genetics should accelerate the discovery of human genes and their key controlling sequences.
Gene-prediction programs struggle to find genes in the 3 billion letters of the human sequence, which includes swathes of junk DNA and defunct pseudogenes.
The bony fish Fugu rubripes shares our gene repertoire but has a genome one-eighth of the size. Its sequence “is easier to sift through for genes”, says Greg Elgar of the UK Human Genome Mapping Project Resource Centre in Hinxton, a partner in the international sequencing effort.
The rough sequence covers 99% of Fugus DNA. It should help to settle the much-disputed estimate of gene number in humans. Current figures for Fugu are around 35,000-40,000; most recent human approximations are 30,000-40,000.
Crucial sequences that control how actively genes make proteins are also very similar in puffer fish and humans, explains Elgar, despite the fact that their most recent common ancestor lived 45 million years ago.
“[These sequences] are the most exciting targets for therapeutics,” says Elgar. Members of the consortium are now undertaking large-scale genome analyses to pinpoint these regulatory regions.
The Fugu genome project used whole-genome shotgun sequencing, a technique pioneered by the commercial human-genome sequencers Celera, in which fragments are read and then pieced together.
The draft announcement comes only a year after the consortium, based in the United States, Singapore and the United Kingdom, embarked on the project. They plan to publish an analysis in early 2002 and are making all sequence information freely available.