Zebrafish earns its stripes

Abstract

The reported sequence of the zebrafish genome, together with the production of mutant strains representing more than one-third of all its protein-coding regions, will accelerate the characterization of human genes. See Letters p.494 & p.498 The genome of the zebrafish — a key model organism for the study of development and human disease — has now been sequenced and published as a well-annotated reference genome. Zebrafish turns out to have the largest gene set of any vertebrate so far sequenced, and few pseudogenes. Importantly for disease studies, comparison between human and zebrafish sequences reveals that 70% of human genes have at least one obvious zebrafish orthologue. A second paper reports on an ongoing effort to identify and phenotype disruptive mutations in every zebrafish protein-coding gene. Using the reference genome sequence along with high-throughput sequencing and efficient chemical mutagenesis, the project's initial results — covering 38% of all known protein-coding genes — they describe phenotypic consequences of more than 1,000 alleles. The long-term goal is the creation of a knockout allele in every protein-coding gene in the zebrafish genome. All mutant alleles and data are freely available at go.nature.com/en6mos .