Researchers from the University of Geneva and the SIB Swiss Institute of Bioinformatics led an analysis of the sequenced genomes of parasitic1寄生的 wasps3黄蜂,马蜂. Generally unknown to the public, the parasitic wasps kill pest insects. They are like 'smart bombs' that seek out搜出,找出 and kill only specific kinds of insects. Harnessing their full potential would thus be vastly preferable to chemical pesticides4, which broadly kill or poison many organisms in the environment, including humans. The results of this large study are featured in today's issue of Science. Professor Evgeny Zdobnov from the University of Geneva Medical School and the SIB Swiss Institute of Bioinformatics directed the comparative evolutionary5 genomics studies as part of this international project, which revealed many features that could be useful to pest control and medicine, and to enhance our understanding of genetics and evolution. The scientists sequenced and analysed the genomes of three parasitoid拟寄生物 Nasonia wasp2 species. "Comparing the genes7 and genomes of those wasps revealed almost 7'000 genes that have recognisable counterparts in humans (orthologues直系同源)", says Zdobnov. "However, the wasp is more different from its closest sequenced relative, the honeybee, than humans are from chickens". In addition to being useful for controlling pests and offering pharmaceutically8 interesting venoms9毒液,恶意, the wasps could act as a new genetic6 system with a number of unique advantages. So far, fruit flies have been the standard model for genetic studies, mainly because they are small, can be grown easily in a laboratory, and reproduce quickly. On top of sharing these traits特征,性格, Nasonia present another advantage. Male Nasonia have only one set of chromosomes10, instead of two sets like fruit flies and people, so that "A single set of chromosomes, which is more commonly found in lower single-celled organisms such as yeast11酵母, is a handy genetic tool, particularly for studying how genes interact with each other," says John H. Werren from the University of Rochester, who led the project together with Stephen Richards from the Genome Sequencing Centre at the Baylor College of Medicine.
Unlike fruit flies, these wasps also modify their DNA12 in ways similar to humans and other vertebrates脊椎动物, a process called "methylation甲基化" which plays an important role in regulating how genes are turned on and off during development. "Importantly", says Zdobnov, "our comparative analyses discovered hundreds of Nasonia genes that are shared with humans but absent from fruit flies, opening new avenues大道,方法 for their functional13 investigation14 in these genetically15 tractable16 wasps". "We identified changes to metabolic17 pathways that may reflect the amino-acid rich carnivorous食肉的 diet of these parasitoids. Such information could support efforts to produce artificial diets for parasitoid wasp mass rearing in biological control and improve hymenopteran膜翅目的 cell culture methods".
Emerging from these genome studies are many opportunities for exploiting Nasonia金小蜂 wasps in topics ranging from pest control to medicine, genetics, and evolution. "Insects are the most diverse多种多样的 group of terrestrial animals", says Zdobnov, "and the sequencing of the wasp genome significantly augments增加,增大 the opportunities for scientists to examine the genetic basis of this incredible diversity that underlies19 their success".