Human
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Available in PDF In this issue... DOE '99 Oakland Highlights Genome Project In the News Microbial Genomics Ethical, Legal, and Social Issues Informatics Web, Other Resources, Publications Funding Meeting Calendars & Acronyms |
Genome ProjectHGP Leaders Confirm Accelerated Timetable for Draft SequenceNew Sequencing Resources Aid Effort In September, international leaders of Human Genome Project (HGP) sequencing confirmed a plan to complete a rough draft of the human genome by next spring, a year ahead of schedule. This accelerated pace is made possible by the commercialization of a new generation of automated capillary DNA sequencing machines and by BAC mapping resources generated from DOE-sponsored clone projects. The rough draft will provide a scaffold of sequence across about 90% of the human genome. Remaining gaps will be closed and accuracy improved over the following 3 years to achieve a complete, high-quality human DNA reference sequence by 2003 [see HGN 10(1-2), 1 (www.ornl.gov/hgmis/publicat/hgn/v10n1/01goals.shtml)]. So far, about 13% of human sequence has been finished, and another 12% is available in draft form (genome.ornl.gov/GCat; www.ncbi.nlm.nih.gov/genome/seq). Sequencing Allocation About 60% of the draft sequence will be produced by six major NIH-funded sequencing centers, including those previously established at Washington University, St. Louis; MIT-Whitehead Institute; and Baylor College of Medicine. In July, laboratories at the University of Washington, Seattle; Genome Therapeutics Corp.; and Stanford University joined the NIH production sequencing effort. The DOE-funded Joint Genome Institute (JGI) and the Sanger Center (United Kingdom) will generate about 10% and 30%, respectively, of the draft sequence. (See box, below right, for details on JGI sequencing.) France, Germany, and Japan are contributing significant amounts of human sequence, and China recently joined the worldwide project. To avoid duplicated work, each laboratory focuses on particular genomic regions (see Human Genome Sequencing Index). Sequencing group members reaffirmed the policy of placing all sequence in publicly accessible databases within 24 hours of obtaining a continuous 1000- to 2000-base assembly. They also agreed that sequencing should continue to be based on a proven strategy using BAC clones containing DNA from known genomic locations. BAC-End Sequences: Prime Resource Data from the DOE-funded BAC-end sequencing projects at The Institute for Genome Research (TIGR) and the University of Washington, Seattle (UWS), are critical for achieving the new HGP goals. These projects are generating single-sequence reads from both ends of the human DNA insert in 450,000 BAC clones [HGN 10(1-2), 4 (www.ornl.gov/hgmis/publicat/hgn/v10n1/04bacend.shtml) and BAC Web page (www.ornl.gov/meetings/bacpac/)]. In March, DOE increased its support of BAC-end sequencing projects to accelerate their completion and usefulness for guiding production sequencing. The BAC-end sequences, called sequence tag connectors (STCs), are valuable tools for eliminating redundant sequencing. They can direct researchers to particular BAC clones needed for extending a sequenced region along the chromosome and can identify clones representing genomic regions still not sequenced. STCs also can provide quality checks on sequence assemblies and are useful for spanning regions resisting standard sequencing biochemistry. STC data will furnish researchers with markers spaced on average every 3000 to 4000 bases across the entire human genome, a 100-fold improvement over other current human genome maps. Detailed data on BACs are available at TIGR (www.tigr.org/tdb/humgen/bac_end_search/bac_end_intro.html) and UWS. The STC data resource is complemented by several other types of mapping information, including FISH mapping of BAC clones. FY1999 HGP Budgets
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