First draft of the pig: Researchers sequence swine genome

CHAMPAIGN, Ill. — A global collaborative has produced a first draft of the genome of a domesticated pig, an achievement that will lead to insights in agriculture, medicine, conservation and evolution.

A red-haired Duroc pig from a farm at the University of Illinois will now be among the growing list of domesticated animals that have had their genomes sequenced. Researchers will announce the achievement Monday (Nov. 2) at a meeting at the Wellcome Trust Sanger Institute in Hinxton, England.

"The pig is a unique animal that is important for food and that is used as an animal model for human disease," said Larry Schook, a University of Illinois professor of biomedical sciences and leader of the sequencing project. "And because the native wild animals are still in existence, it is a really exciting animal to look at to learn about the genomic effects of domestication," he said.

The Duroc is one of five major breeds used in pork production around the world and is one of about 200 breeds of domesticated pigs. There are also numerous varieties of wild boar, the non-domesticated pigs that are believed to have originated in Eurasia.

The sequencing project involved an international team of scientists andgenome-sequencing centers. The USDA National Institute of Food and Agriculture, formerly the Cooperative State Research, Education and Extension Service, provided $10 million in initial funding, requiring that this be the only pig genome-sequencing project in the world, that it be a public-private partnership and a global collaborative effort, with significant financial or in-kind support from the other participating agencies and stakeholders.

The effort cost about $24.3 million, with additional support from the USDA Agricultural Research Service and many other American, Asian and European funders. (See below for a complete list). Another requirement of participation was that the findings be made public, with no proprietary interests allowed.

Lawrence B. Schook, right, a professor of biomedical sciences at Illinois, with animal sciences professor Jonathan Beever. Schook, who is also an affiliate of the Institute for Genomic Biology at Illinois, led the international pig genome sequencing project, which has produced a draft of the pig genome.

(Photo Credit: Photo by L. Brian Stauffer, U. of I. News Bureau.)

The draft sequence, which is about 98 percent complete, will allow researchers to pinpoint genes that are useful to pork production or are involved in immunity or other important physiological processes in the pig. It will enhance breeding practices, offer insight into diseases that afflict pigs (and, sometimes, also humans) and will assist in efforts to preserve the global heritage of rare, endangered and wild pigs. It also will be important for the study of human health because pigs are very similar to humans in their physiology, behavior and nutritional needs.

"We are excited to have the swine genome sequence and anticipate this will accelerate the rate of genetic improvement in swine as the bovine sequence is impacting the dairy industry's genetic gains," said Steve Kappes, deputy administrator of Animal Production and Protection for the USDA Agricultural Research Service.

"This is a great day for the pig research community," said professor Alan Archibald, of the Roslin Institute and R(D)SVS at the University of Edinburgh. "When we launched the international pig gene mapping project almost 20 years ago, few if any of us thought a pig genome sequence was attainable or affordable."

The pig genome sequence is an essential first tool that will allow scientists to delve into the health, science and natural history of the pig, Schook said.

"This is just the end of the beginning of the process," he said. "Now we're just beginning to be able to answer a lot of questions about the pig."

"We are delighted to have contributed to this important collaboration," said professor Allan Bradley, the director of the Wellcome Trust Sanger Institute, which performed most of the sequencing. "This sequence provides a tool of real value in helping the research community to better understand human diseases, in particular by facilitating cardiovascular, pulmonary, gastrointestinal and immunological studies. Thanks to the immediate release of sequence data as it has been produced, the scientific impact of this research is already being felt."

Source: University of Illinois at Urbana-Champaign