A Large Set of Finnish Affected Sibling Pair Families With Type 2 Diabetes Suggests Susceptibility Loci on Chromosomes 6, 11, and 14

Kaisa Silander; Laura J. Scott; Timo T. Valle; Karen L. Mohlke; Heather M. Stringham; Kerry Wiles; William L. Duren; Kimberly F. Doheny; Elizabeth Pugh; Peter S. Chines; Narisu Narisu; Peggy P. White; Tasha E. Fingerlin; Anne Jackson; Chun Li; Soumitra Ghosh; Victoria L. Magnuson; Kimberly Colby; Michael R. Erdos; Jason E. Hill; Pablo E. Hollstein; Kathleen M. Humphreys; Roshni A. Kasad; Jessica E. Lambert; Konstantinos N. Lazaridis; George Lin; Anabelle Morales‐Mena; Kristin Patzkowski; Carrie Pfahl; Rachel Porter; David Rha; Leonid Segal; Yong Suh; Jason P. Tovar; Arun M. Unni; Christian Welch; Julie A. Douglas; Michael P. Epstein; Elizabeth R. Hauser; William Hagopian; Thomas A. Buchanan; Richard M. Watanabe; Richard N. Bergman; Jaakko Tuomilehto; Francis S. Collins; Michael Boehnke

doi:10.2337/diabetes.53.3.821

A Large Set of Finnish Affected Sibling Pair Families With Type 2 Diabetes Suggests Susceptibility Loci on Chromosomes 6, 11, and 14

Kaisa Silander(National Human Genome Research Institute), Laura J. Scott(University of Michigan), Timo T. Valle, Karen L. Mohlke(National Human Genome Research Institute), Heather M. Stringham(University of Michigan), Kerry Wiles(National Human Genome Research Institute), William L. Duren(University of Michigan), Kimberly F. Doheny(Johns Hopkins University), Elizabeth Pugh(Johns Hopkins University), Peter S. Chines(National Human Genome Research Institute), Narisu Narisu(National Human Genome Research Institute), Peggy P. White(University of Michigan), Tasha E. Fingerlin(University of Michigan), Anne Jackson(University of Michigan), Chun Li(University of Michigan), Soumitra Ghosh(National Human Genome Research Institute), Victoria L. Magnuson(National Human Genome Research Institute), Kimberly Colby(National Human Genome Research Institute), Michael R. Erdos(National Human Genome Research Institute), Jason E. Hill(National Human Genome Research Institute), Pablo E. Hollstein(National Human Genome Research Institute), Kathleen M. Humphreys(National Human Genome Research Institute), Roshni A. Kasad(National Human Genome Research Institute), Jessica E. Lambert(National Human Genome Research Institute), Konstantinos N. Lazaridis(National Human Genome Research Institute), George Lin(National Human Genome Research Institute), Anabelle Morales‐Mena(National Human Genome Research Institute), Kristin Patzkowski(National Human Genome Research Institute), Carrie Pfahl(National Human Genome Research Institute), Rachel Porter(National Human Genome Research Institute), David Rha(National Human Genome Research Institute), Leonid Segal(National Human Genome Research Institute), Yong Suh(National Human Genome Research Institute), Jason P. Tovar(National Human Genome Research Institute), Arun M. Unni(National Human Genome Research Institute), Christian Welch(National Human Genome Research Institute), Julie A. Douglas(University of Michigan), Michael P. Epstein(University of Michigan), Elizabeth R. Hauser(University of Michigan), William Hagopian(Pacific Northwest Diabetes Research Institute), Thomas A. Buchanan(University of Southern California), Richard M. Watanabe(University of Southern California), Richard N. Bergman(University of Southern California), Jaakko Tuomilehto(University of Helsinki), Francis S. Collins(National Human Genome Research Institute), Michael Boehnke(University of Michigan)

Diabetes

March 1, 2004

10.2337/diabetes.53.3.821

Cited by 77Open Access

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Abstract

The aim of the Finland-United States Investigation of NIDDM Genetics (FUSION) study is to identify genes that predispose to type 2 diabetes or are responsible for variability in diabetes-related traits via a positional cloning and positional candidate gene approach. In a previously published genome-wide scan of 478 Finnish affected sibling pair (ASP) families (FUSION 1), the strongest linkage results were on chromosomes 20 and 11. We now report a second genome-wide scan using an independent set of 242 Finnish ASP families (FUSION 2), a detailed analysis of the combined set of 737 FUSION 1 + 2 families (495 updated FUSION 1 families), and fine mapping of the regions of chromosomes 11 and 20. The strongest FUSION 2 linkage results were on chromosomes 6 (maximum logarithm of odds score [MLS] = 2.30 at 95 cM) and 14 (MLS = 1.80 at 57 cM). For the combined FUSION 1 + 2 families, three results were particularly notable: chromosome 11 (MLS = 2.98 at 82 cM), chromosome 14 (MLS = 2.74 at 58 cM), and chromosome 6 (MLS = 2.66 at 96 cM). We obtained smaller FUSION 1 + 2 MLSs on chromosomes X (MLS = 1.27 at 152 cM) and 20p (MLS = 1.21 at 20 cM). Among the 10 regions that showed nominally significant evidence for linkage in FUSION 1, four (on chromosomes 6, 11, 14, and X) also showed evidence for linkage in FUSION 2 and stronger evidence for linkage in the combined FUSION 1 + 2 sample.

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