Association of genetic profiles to Crohn’s disease by linear combinations of single nucleotide polymorphisms

References 

1. Chakravarti A. Single nucleotide polymorphisms: … to a future of genetic medicine. Nature. 2001;409:822–823
   • MEDLINE
   • CrossRef
2. Miki Y, Swensen J, Shattuck-Eidens D, Futreal PA, Harshman K, Tavtigian S,, et al. A strong candidate for the breast and ovarian-cancer susceptibility gene BRCA1. Science. 1994;266:66–71
   • MEDLINE
3. Wooster R, Bignell G, Lancaster J, Swift S, Seal S, Mangion J,, et al. Identification of the breast cancer susceptibility gene BRCA2. Nature. 1995;378:789–792
   • MEDLINE
   • CrossRef
4. Easton DF, Pooley KA, Dunning AM, Pharoah PDP, Thompson D, Ballinger DG,, et al. Genome-wide association study identifies novel breast cancer susceptibility loci. Nature. 2007;447:1087–1093
   • CrossRef
5. Hunter DJ, Kraft P, Jacobs KB, Cox DG, Yeager M, Hankinson SE,, et al. A genome-wide association study identifies alleles in FGFR2 associated with risk of sporadic postmenopausal breast cancer. Nat Genet. 2007;39:870–874
   • CrossRef
6. Gaya DR, Russll RK, Nimmo ER, Satsangi J. New genes in inflammatory bowel disease: lessons from complex diseases. Lancet. 2006;367:1271–1284
   • Abstract
   • Full Text
   • Full-Text PDF (672 KB)
   • CrossRef
7. Nadeau JH, Topol EJ. The genetics of health. Nat Genet. 2006;38:1095–1098
   • MEDLINE
   • CrossRef
8. Lewis CM. Genetic association studies: design, analysis and interpretation. Brief Bioinform. 2002;3(2):146–153
   • MEDLINE
   • CrossRef
9. Hageman GS, Anderson DH, Johnson LV, Hancox LS, Taiber AJ, Hardisty LI,, et al. A common haplotype in the complement regulatory gene factor H(HF1/CFH) predisposes individuals to age-related macular degeneration. Proc Natl Acad Sci USA. 2005;102(20):7227–7232
10. The Wellcome Trust Case Control Consortium . Genome-wide association study of 14,000 cases of seven common diseases and 3,000 shared controls. Nature. 2007;447(7145):661–678
    • CrossRef
11. Risch NJ. Searcing for genetic determinants in the new millennium. Nature. 2000;405(6788):847–856
    • MEDLINE
    • CrossRef
12. Good P. Permutation tests: a practical guide to resampling methods for testing hypothesis. New York: Springer Verlag; 1994;
13. Storey JD, Tibshirani R. Statistical significance for genomewide studies. Proc Natl Acad Sci USA. 2003;100(16):9440–9445
14. Shanahan F. Crohn’s disease. Lancet. 2002;359:62–69
    • Abstract
    • Full Text
    • Full-Text PDF (418 KB)
    • CrossRef
15. Podolsky DK. Inflammatory bowel disease. N Engl J Med. 2002;347(6):417–429
    • CrossRef
16. Rifkin R, Yeo G, Poggio T. Regularized least squares classification. In:  Suykens JAK,  Horvath G,  Basu S,  Micchelli C,  Vandewalle J editor. Advances in learning theory: methods, model and applications, NATO science series. III. Computer and systems sciences. 190:Amsterdam: IOS Press; 2003;p. 131–153
17. Maglietta R, D’Addabbo A, Piepoli A, Perri F, Liuni S, Pesole G,, et al. Selection of relevant genes in cancer diagnosis based on their prediction accuracy. Artif. Intell. Med. 2007;40:29–44
    • Abstract
    • Full Text
    • Full-Text PDF (214 KB)
    • CrossRef
18. Daubechies I. Ten lectures on wavelets. CBMS-NSF regional conferences series in applied mathematics. Philadelphia, PA: SIAM; 1992;
19. Ancona N, Stramaglia S. An invariance property of predictors in kernel-induced hypothesis spaces. Neural Comput. 2006;18:749–759
    • MEDLINE
    • CrossRef
20. Lunetta KL, Hayward LB, Segal J, Van Eerdewegh P. Screening large-scale association study data: exploiting interactions using random forests. BMC Genet. 2004;5(1):32
    • MEDLINE
    • CrossRef
21. D’Addabbo A, Latiano A, Palmieri O, Maglietta R, Annese V, Ancona N. Regularized least squares cancer classifiers predict Crohn’s disease from profiles of single nucleotide polymorphisms. Ann Hum Genet. 2007;71(4):537–549
    • MEDLINE
    • CrossRef
22. Nagelkerke N, Smits J, Le Cessie S, Van Houwelingen H. Testing goodness-of-fit of the logistic regression model in case-control studies using sample reweighting. Stat Med. 2005;24:121–130
    • MEDLINE
    • CrossRef
23. Heidema AG, Boer JM, Nagelkerke N, Mariman EC, van der A DL, Feskens EJ. The challange for genetic epidemiologists: how to analyze large numbers of SNPs in relation to complex diseases. BMC Genet. 2006;7:23
    • MEDLINE
    • CrossRef
24. Papoulis A. Probability, random variables, and stochastic processes. London: McGraw-Hill International Student Edition; 1985;
25. Ancona N, Maglietta R, D’Addabbo A, Liuni S, Pesole G. Regularized least squares cancer classifiers from DNA microarray data. BMC Bioinform. 2005;6(Suppl 4):S2
26. Paschou P, Ziv E, Burchard EG, Choudhry S, Rodriguez-Cintron W, Mahoney MW,, et al. PCA-correlated SNPs for structure identification in worldwide human populations. PLoS Genet. 2007;3(9):e160
    • CrossRef
27. Maglietta R, Piepoli A, Catalano D, Licciulli F, Carella M, Liuni S,, et al. Statistical assessment of functional categories of genes deregulated in pathological conditions by using microarray data. Bioinformatics. 2007;23(16):2063–2072
    • CrossRef