A second-generation screen of the human genome for susceptibility to insulin-dependent diabetes mellitus (original) (raw)

• Letter
• Published: July 1998
• Kathryn J. Gogolin-Ewens3,
• David A. Hinds4,
• Beth Wapelhorst1,2,
• V. Annem Morrison1,2,
• Brigid Stirling1,2,
• Mirna Mitra5,
• Jennifer Farmer3,
• Sloan R. Williams3,
• Nancy J. Cox6,
• Graeme I. Bell5,
• Neil Risch4 &
• …
• Richard S. Spielman8

Nature Genetics volume 19, pages 292–296 (1998)Cite this article

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• 282 Citations
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Abstract

During the past decade, the genetics of type 1 (insulin-dependent) diabetes mellitus (IDDM) has been studied extensively and the disorder has become a paradigm for genetically complex diseases. Previous genome screens1,2 and studies focused on candidate genes3,4,5,6,7,8,9 have provided evidence for genetic linkage between polymorphic DNA markers and 15 putative IDDM susceptibility loci, designated _IDDM1_-IDDM15 . We have carried out a second-generation screen of the genome for linkage and analysed the data by multipoint linkage methods. An initial panel of 212 affected sibpairs (ASPs) was genotyped for 438 markers spanning all autosomes, and an additional 467 ASPs were used for follow-up genotyping. Other than the well-established linkage with the HLA region at chromosome 6p21.3, there was only one region, located on chromosome 1q and not previously reported, where the log likelihood ratio (lod) was greater than 3. Lods between 1.0 and 1.8 were found in six other regions, three of which have been reported in other studies. Another reported region10, on chromosome 6q and loosely linked to HLA, also had an elevated lod. Little or no support was found for most reported IDDM loci (lods were less than 1), despite larger sample sizes in the present study.

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Acknowledgements

We are grateful for advice and assistance from R. McGinnis, M. Urbanek and L. Pinchuk, and for technical assistance by C. Blume, P. Byers, I. Edenburg, J. Ladik, J. Salvin, P. Wexler and Y. Yang. We thank the Human Biological Data Interchange and the British Diabetic Association for providing DNA samples and information about the families. This work was supported by linked NIH grants DK 46635 (P.C.), DK46627 (G.I.B.) and DK46618 (R.S.S.).

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Authors and Affiliations

1. Virginia Mason Research Center, 1000 Seneca St., Seattle, 98101, Washington, USA
   Beth Wapelhorst, V. Annem Morrison & Brigid Stirling
2. Department of Immunology, UW School of Medicine, Seattle, 98195, Washington, USA
   Beth Wapelhorst, V. Annem Morrison & Brigid Stirling
3. Department of Genetics, University of Pennsylvania School of Medicine, 415 Curie Blvd, Philadelphia, 19104-6145, Pennsylvania, USA
   Kathryn J. Gogolin-Ewens, Jennifer Farmer & Sloan R. Williams
4. Department of Genetics, Stanford University, Stanford, 94305-5120, California, USA
   David A. Hinds & Neil Risch
5. Howard Hughes Medical Institute and Departments of Biochemistry and Molecular Biology, and Medicine, University of Chicago, 5841 South Maryland Avenue, MC1028, Chicago, 60637, Illinois, USA
   Mirna Mitra & Graeme I. Bell
6. Department of Medicine, University of Chicago, 5841 South Maryland Avenue, MC1028, Chicago, 60637, Illinois, USA
   Nancy J. Cox
7. Patrick Concannon
8. Richard S. Spielman

Authors

1. Patrick Concannon
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2. Kathryn J. Gogolin-Ewens
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3. David A. Hinds
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4. Beth Wapelhorst
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5. V. Annem Morrison
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6. Brigid Stirling
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7. Mirna Mitra
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8. Jennifer Farmer
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9. Sloan R. Williams
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10. Nancy J. Cox
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11. Graeme I. Bell
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12. Neil Risch
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13. Richard S. Spielman
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Correspondence toPatrick Concannon or Richard S. Spielman.

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Concannon, P., Gogolin-Ewens, K., Hinds, D. et al. A second-generation screen of the human genome for susceptibility to insulin-dependent diabetes mellitus.Nat Genet 19, 292–296 (1998). https://doi.org/10.1038/985

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• Received: 09 February 1998
• Accepted: 03 May 1998
• Issue Date: July 1998
• DOI: https://doi.org/10.1038/985

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