论文信息 - The Finland-United States investigation of non-insulin-dependent diabetes mellitus genetics (FUSION) study. I. An autosomal genome scan for genes that predispose to type 2 diabetes. - 字舞流文

The Finland-United States investigation of non-insulin-dependent diabetes mellitus genetics (FUSION) study. I. An autosomal genome scan for genes that predispose to type 2 diabetes.

Joseph B. Rayman | M. Boehnke | J. Douglas | W. Hagopian | E. Lange | E. Hauser | K. Mohlke | W. Duren | M. Erdos | H. Stringham | P. Chines | P. P. White | T. Buchanan | R. Watanabe | T. Valle | J. Tuomilehto | K. Silander | C. Langefeld | Chun Xing Li | T. Fingerlin | R. McEachin | H. Kaleta | E. Trager | G. Vidgrén | E. Tuomilehto-Wolf | K. Kohtamäki | J. Balow | E R Hauser | R M Watanabe | G. Birznieks | C. Langefeld | J. Tannenbaum | W. Eldridge | B. Shurtleff | R. Porter | R. Sharaf | V. Magnuson | D. Ally | A. Musick | C. Te | C. Martin | A. Witt | A. So | A. Unni | L. Segal | Z. Karanjawala | C D Langefeld | S. Ghosh | Z E Karanjawala | K Silander | K Kohtamäki | D S Ally | S Ghosh | T T Valle | V L Magnuson | K L Mohlke | P Chines | J Balow | G Birznieks | J Chang | W Eldridge | M R Erdos | J I Knapp | K Kudelko | C Martin | A Morales-Mena | A Musick | T Musick | C Pfahl | R Porter | J B Rayman | K. Kudełko | Elizabeth R. Hauser | R. Whiten | Tiffany S. Musick | M. Epstein | J. Chang | S. Nylund | T. Musick | J. Knapp | A. Morales-Mena | C. Pfahl | J. Rayman | L. Toivanen | D. Rha | J. Blaschak-Harvan | Richard N. Bergman | J. Chang | R. Watanabe | Julie I. Knapp | J. Eriksson | F. Collins | Shane A. Shapiro | Soumitra S. Ghosh | V. Magnuson | Jennie Chang | Kristina Kudelko | Colin Martin | Anabelle Morales-Mena | C. Pfahl | Jason Tovar | Christian Welch | E. H. Ross | Elza Demirchyan | R. Bergman | Rachel Porter | Ravi Sharaf

[1] H M Stringham,et al. The Finland-United States investigation of non-insulin-dependent diabetes mellitus genetics (FUSION) study. II. An autosomal genome scan for diabetes-related quantitative-trait loci. , 2000, American journal of human genetics.

[2] Tom H. Lindner,et al. Genetic variation in the gene encoding calpain-10 is associated with type 2 diabetes mellitus , 2000, Nature Genetics.

[3] J. Weber,et al. Genomewide search for type 2 diabetes susceptibility genes in four American populations. , 2000, American journal of human genetics.

[4] Marc Montminy,et al. Mutations in NEUROD1 are associated with the development of type 2 diabetes mellitus , 1999, Nature Genetics.

[5] S. Pulst. Genetic linkage analysis. , 1999 .

[6] M. Leppert,et al. A genome-wide search for type 2 diabetes susceptibility genes in Utah Caucasians. , 1999, Diabetes.

[7] P. O'Connell,et al. Linkage of type 2 diabetes mellitus and of age at onset to a genetic location on chromosome 10q in Mexican Americans. , 1999, American journal of human genetics.

[8] F. Collins,et al. Type 2 diabetes: evidence for linkage on chromosome 20 in 716 Finnish affected sib pairs. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[9] Nancy J. Cox,et al. Loci on chromosomes 2 (NIDDM1) and 15 interact to increase susceptibility to diabetes in Mexican Americans , 1999, Nature Genetics.

[10] 古田浩人. Mutations in the hepatocyte nuclear factor-4α gene in maturity-onset diabetes of the young (MODY1) , 1999 .

[11] M. Boehnke,et al. Genetic linkage analysis of complex genetic traits by using affected sibling pairs. , 1998, Biometrics.

[12] K. Clément,et al. A genome-wide scan for human obesity genes reveals a major susceptibility locus on chromosome 10 , 1998, Nature Genetics.

[13] M. Ehm,et al. An autosomal genomic scan for loci linked to type II diabetes mellitus and body-mass index in Pima Indians. , 1998, American journal of human genetics.

[14] J C Murray,et al. Pediatrics and , 1998 .

[15] M. Boehnke,et al. A large sample of finnish diabetic sib-pairs reveals no evidence for a non-insulin-dependent diabetes mellitus susceptibility locus at 2qter. , 1998, The Journal of clinical investigation.

[16] I. Bleiweiss,et al. Frequency and carrier risk associated with common BRCA1 and BRCA2 mutations in Ashkenazi Jewish breast cancer patients. , 1998, American journal of human genetics.

[17] R N Bergman,et al. Mapping Genes for NIDDM: Design of the Finland—United States Investigation of NIDDM Genetics (FUSION) Study , 1998, Diabetes Care.

[18] R. Hanson,et al. Sib-pair linkage analysis for susceptibility genes for microvascular complications among Pima Indians with type 2 diabetes. Pima Diabetes Genes Group. , 1998, Diabetes.

[19] M. Ehm,et al. An autosomal genomic scan for loci linked to prediabetic phenotypes in Pima Indians. , 1998, The Journal of clinical investigation.

[20] M. Ehm,et al. Autosomal genomic scan for loci linked to obesity and energy metabolism in Pima Indians. , 1998, American journal of human genetics.

[21] Hiroyuki Kuroki,et al. Mutation in hepatocyte nuclear factor–1β gene (TCF2) associated with MODY , 1997, Nature Genetics.

[22] W. Clarke,et al. Early-onset type-ll diabetes mellitus (MODY4) linked to IPF1 , 1997, Nature Genetics.

[23] S. Elbein. The genetics of human noninsulin-dependent (type 2) diabetes mellitus. , 1997, The Journal of nutrition.

[24] J. Beckmann,et al. A susceptibility locus for early-onset non-insulin dependent (type 2) diabetes mellitus maps to chromosome 20q, proximal to the phosphoenolpyruvate carboxykinase gene. , 1997, Human molecular genetics.

[25] M. Boehnke,et al. Accurate inference of relationships in sib-pair linkage studies. , 1997, American journal of human genetics.

[26] S. Rich,et al. Linkage of Genetic Markers on Human Chromosomes 20 and 12 to NIDDM in Caucasian Sib Pairs With a History of Diabetic Nephropathy , 1997, Diabetes.

[27] S. Rich,et al. New Susceptibility Locus for NIDDM Is Localized to Human Chromosome 20q , 1997, Diabetes.

[28] Joseph B. Rayman,et al. Methods for precise sizing, automated binning of alleles, and reduction of error rates in large-scale genotyping using fluorescently labeled dinucleotide markers. FUSION (Finland-U.S. Investigation of NIDDM Genetics) Study Group. , 1997, Genome research.

[29] A. Philippi,et al. Affected sib‐pair tests for linkage: Type I errors with dependent sib‐pairs , 1997, Genetic epidemiology.

[30] E. Ravussin,et al. Genomewide search for genes influencing percent body fat in Pima Indians: suggestive linkage at chromosome 11q21-q22. Pima Diabetes Gene Group. , 1997, American journal of human genetics.

[31] J. Weissenbach,et al. Evidence of a non-MHC susceptibility locus in type I diabetes linked to HLA on chromosome 6. , 1997, American journal of human genetics.

[32] T. Hansen,et al. Mutations in the hepatocyte nuclear factor-1α gene in maturity-onset diabetes of the young (MODY3) , 1996, Nature.

[33] Joseph B. Rayman,et al. Substrate nucleotide-determined non-templated addition of adenine by Taq DNA polymerase: implications for PCR-based genotyping and cloning. , 1996, BioTechniques.

[34] M. McCarthy,et al. Mapping of a gene for type 2 diabetes associated with an insulin secretion defect by a genome scan in Finnish families , 1996, Nature Genetics.

[35] P. O'Connell,et al. Evidence for linkage of regions on chromosomes 6 and 11 to plasma glucose concentrations in Mexican Americans. , 1996, Genome research.

[36] R. S. Spielman,et al. A genome–wide search for human non–insulin–dependent (type 2) diabetes genes reveals a major susceptibility locus on chromosome 2 , 1996, Nature Genetics.

[37] N. Schork,et al. Genetic Analysis of NIDDM: The Study of Quantitative Traits , 1996, Diabetes.

[38] C. R. Kahn,et al. Genetics of non-insulin-dependent (type-II) diabetes mellitus. , 1996, Annual review of medicine.

[39] L. Geiss,et al. Prevalence and Incidence of Non-Insulin-Dependent Diabetes , 1996 .

[40] N. Risch,et al. Affected‐sib‐pair interval mapping and exclusion for complex genetic traits: Sampling considerations , 1996, Genetic epidemiology.

[41] M. Stoffel,et al. Mutations in the hepatocyte nuclear factor-4α gene in maturity-onset diabetes of the young (MODY1) , 1996, Nature.

[42] E. Lander,et al. Genetic dissection of complex traits: guidelines for interpreting and reporting linkage results , 1995, Nature Genetics.

[43] B. Mitchell,et al. NIDDM in Mexican-American Families: Heterogeneity by age of onset , 1994, Diabetes Care.

[44] Aravinda Chakravarti,et al. Automated construction of genetic linkage maps using an expert system (MultiMap): a human genome linkage map , 1994, Nature Genetics.

[45] T. Matise,et al. Erratum: Automated construction of genetic linkage maps using an expert system (MultiMap): A human genome linkage map (Nature Genetics (1994) 6 (384- 390)) , 1994 .

[46] P. Holmans,et al. Asymptotic properties of affected-sib-pair linkage analysis. , 1993, American journal of human genetics.

[47] M. Stoffel,et al. Nonsense mutation in the glucokinase gene causes early-onset non-insulin-dependent diabetes mellitus , 1992, Nature.

[48] Veikko Salomaa,et al. Prevalence of diabetes mellitus and impaired glucose tolerance in the middle-aged population of three areas in Finland. , 1991, International journal of epidemiology.

[49] S. Rich. Mapping Genes in Diabetes: Genetic Epidemiological Perspective , 1990, Diabetes.

[50] N. Risch. Linkage strategies for genetically complex traits. II. The power of affected relative pairs. , 1990, American journal of human genetics.

[51] K. Lange,et al. Programs for pedigree analysis: Mendel, Fisher, and dGene , 1988, Genetic epidemiology.

[52] E. Lander,et al. Construction of multilocus genetic linkage maps in humans. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[53] B. Suarez,et al. A simple method to detect linkage for rare recessive diseases: An application to juvenile diabetes , 1979, Clinical genetics.

[54] J. H. Mielke,et al. The genetic structure of finland. , 1976, American journal of physical anthropology.