2007 News Release
The International HapMap Tutorial Webcast
Webcast for the October 27, 2005 tutorial How to Use the HapMap Data.
International Consortium Completes Map Of Human Genetic Variation
2005 News Release
The International HapMap Project Press Conference
October 26, 2005
About The International HapMap Project
A fact sheet about the HapMap
Ethical and Community Issues Raised By the International HapMap
Ethical issues surrounding HapMap
International Consortium Launches Genetic Variation Mapping Project:
2002 News Release
International HapMap Project
International HapMap Project Overview
The elucidation of the entire human genome has made possible our current effort to develop a haplotype map of the human genome. The haplotype map, or "HapMap," is a tool that allows researchers to find genes and genetic variations that affect health and disease.
The DNA sequence of any two people is 99.5 percent identical. The variations, however, may greatly affect an individual's disease risk. Sites in the DNA sequence where individuals differ at a single DNA base are called single nucleotide polymorphisms (SNPs). Sets of nearby SNPs on the same chromosome are inherited in blocks. This pattern of SNPs on a block is a haplotype. Blocks may contain a large number of SNPs, but a few SNPs are enough to uniquely identify the haplotypes in a block. The HapMap is a map of these haplotype blocks and the specific SNPs that identify the haplotypes are called tag SNPs.
The HapMap is valuable by reducing the number of SNPs required to examine the entire genome for association with a phenotype from the 10 million SNPs that exist to roughly 500,000 tag SNPs. This makes genome scan approaches to finding regions with genes that affect diseases much more efficient and comprehensive, since effort is not wasted typing more SNPs than necessary and all regions of the genome can be included.
In addition to its use in studying genetic associations with disease, the HapMap is a powerful resource for studying the genetic factors contributing to variation in response to environmental factors, in susceptibility to infection, and in the effectiveness of and adverse responses to drugs and vaccines. All such studies are based on the expectation that there are higher frequencies of the contributing genetic components in a group of people with a disease or particular response to a drug, vaccine, pathogen, or environmental factor than in a group of similar people without the disease or response. Using just the tag SNPs, researchers are able to find chromosome regions that have different haplotype distributions in the two groups of people, those with a disease or response and those without. Each region is then studied in more detail to discover which variants in which genes in the region contribute to the disease or response, leading to more effective interventions. This also allows the development of tests to predict which drugs or vaccines would be most effective in individuals with particular genotypes for genes affecting drug metabolism.
International HapMap Information, Project Events and Reports
- The International HapMap Project Web Site [hapmap.ncbi.nlm.nih.gov]
The Web site for the HapMap Project partnership of scientists and funding agencies from Canada, China, Japan, Nigeria, the United Kingdom and the United States
- Groups Participating in the International HapMap Project [hapmap.ncbi.nlm.nih.gov]
- Members of the Initial HapMap Project Planning Working Groups
- HapMap Project News Release:
International Consortium Launches Genetic Variation Mapping Project October 29, 2002
- The International HapMap Tutorial Webcast
The webcast for the October 27, 2005 tutorial: How to Use the HapMap Data.
- HapMap Tutorial: How to use the HapMap Data [hapmap.ncbi.nlm.nih.gov]
Support materials for the two-hour tutorial on effective HapMap usage. Includes an introduction to the HapMap, use of the HapMap for association studies, tag SNP selection, improving analyses using chips with pre-selected SNPs and a guide to the HapMap web pages.
- Developing a Haplotype Map of the Human Genome for Finding Genes Related to Health and Disease
July 18-19, 2001
International HapMap Project Papers
International HapMap Constortium. A second generation human haplotype map of over 3.1 million SNPs. Nature, 449:851-862. 2007. [Full Text]
International HapMap Constortium. Supplementary Information for: A second generation human haplotype map of over 3.1 million SNPs. Nature, 449:1-38. 2007. [Full Text]
Genome-wide detection and characterization of positive selection in human populations. Nature, 449:913-919. 2007. [Full Text]
International HapMap Consortium. A haplotype map of the human genome. Nature, 437: 1229-1320. 2005. [Full Text]
The International HapMap Consortium. The International HapMap Project. Nature, 426: 789-796. 2003. [Full Text]
The International HapMap Consortium. Integrating ethics and science in the International HapMap Project. Nature Genetics, 5: 467-475. 2004. [Full Text]
International HapMap Project Related Papers
Clark, A.G., Hubisz, M.J., Bustamante C.D., Williamson, S.H., and Nielsen, R. Ascertainment bias in studies of human genome-wide polymorphism. Genome Research, 15:1496-1502. 2005. [PubMed]
Goldstein, D.B., and Cavalleri, G.L. Genomics: Understanding human diversity. Nature, 437:1241-1242. 2005. [Full Text] [nature.com]
Hinds, D.A., Stuve, L.L., Nilsen, G.B., Halperin, E., Eskin, E., Ballinger, D.G., Frazer, K.A., and Cox, D.R. Whole genome patterns of common DNA variation in three human populations. Science, 307:1072-1079. 2005. [PubMed]
Myers, S., Bottolo, L., Freeman, C., McVean, G., and Donnelly, P. A fine-scale map of recombination rates and hotspots across the human genome. Science, 310:321-324. 2005. [PubMed]
Nielsen, R., Williamson, S., Kim, Y., Hubisz, M.J., Clark, A.G., and Bustamante, C. Genomic scans for selective sweeps using SNP data. Genome Research, 15: 1566-1575. [PubMed]
Smith, A.V., Thomas, D.J., Munro, H.M., and Abecasis, G.R. Sequence features in regions of weak and strong linkage disequilibrium. Genome Research, 15:1519-1534. 2005. [PubMed]
Weir, B.S., Cardon, L.R., Anderson, A.D., Nielsen, D.M., and Hill, W.G. Measures of human population structure show heterogeneity among genomic regions. Genome Research, 15:1468-1476. 2005. [PubMed]
Daly, M.J., Rioux, J.D., Schaffner, S.F., Hudson, T.J., and Lander, E.S. High-resolution haplotype structure in the human genome. Nature Genetics, 29: 229-232. 2001. [Full Text] [nature.com]
Gabriel, S.B., Schaffner, S.F., Nguyen, H., Moore, J.M., Roy, J., Blumenstiel, B., Higgins, J., DeFelice, M., Lochner, A., Faggart, M., Liu-Cordero, S.N., Rotimi, C., Adeyemo, A., Cooper, R., Ward, R., Lander, E.S., Daly, M.J., Altshuler, D. The Structure of Haplotype Blocks in the Human Genome. Science, 296(5576):2225-9. 2002. (Look at the supplemental data, especially Fig. 1 also.) [PubMed]
Reich, D.E., Cargill, M., Bolk, S., Ireland, J., Sabeti, P.C., Richter, D.J., Lavery, T., Kouyoumjian, R., Farhadian, S.F., Ward, R., and Lander, E.S. Linkage disequilibrium in the human genome. Nature, 411: 199-204. 2001. [Full Text] [nature.com]
Goldstein, D.B., and Weale, M.E. Population genomics: Linkage disequilibrium holds the key. Curr. Biol 11, R576-579. 2001.[Full Text]
International HapMap Project Related Research
International HapMap Project Funding Opportunities
- RFA HG-04-005 [grants1.nih.gov]: Additional Genotyping for the Human Haplotype Map (Expired: June 26, 2004)
- RFA HG-02-005 [grants1.nih.gov]: Large Scale Genotyping for the Haplotype Map of the Human Genome (Expired)
International HapMap Project Staff
Last Updated: May 1, 2012