Detecting disease associations due to linkage disequilibrium using haplotype tags: A class of tests and the determinants of statistical power

被引:315
作者
Chapman, JM [1 ]
Cooper, JD [1 ]
Todd, JA [1 ]
Clayton, DG [1 ]
机构
[1] Univ Cambridge, Cambridge Inst Med Res, JDRFWT Diabet & Inflammat Lab, Cambridge CB2 2XY, England
关键词
htSNPs; association studies; linkage disequilibrium; multi-locus TDT; power;
D O I
10.1159/000073729
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
In the 'indirect' method of detecting genetic associations between a trait and a DNA variant, we type several markers in a gene or chromosome region of linkage disequilibrium. If there is association between markers and the trait, we presume the existence of one or more causal polymorphisms in the region. In order to obtain a sufficiently dense set of markers it will almost always be necessary to use single nucleotide polymorphisms (SNPs). Although there is an emerging literature on methods for choosing an optimal set of 'haplotype tag SNPs' (htSNPs) to detect association between a genetic region and a trait, less attention has been given to the problem of how such studies should be analysed when completed, and how the initial data which was used to select the htSNPs should be incorporated into the analysis. This paper discusses this problem for both population and family-based association studies. The role of the R-2 measure of association between a causal locus and various methods of scoring of marker haplotypes is highlighted. In most cases, the simplest method of scoring (locus coding), which does not require phase resolution, is shown generally to be more powerful than scoring methods that include haplotype information. A new 'multi-locus TDT' is also proposed. Copyright (C) 2003 S. Karger AG, Basel.
引用
收藏
页码:18 / 31
页数:14
相关论文
共 22 条
[1]  
[Anonymous], 2003, Stata Statistical Software
[2]  
Barratt BJ, 2002, ANN HUM GENET, V66, P393, DOI [10.1046/j.1469-1809.2002.00125.x, 10.1017/S0003480002001252]
[3]   Additional SNPs and linkage-disequilibrium analyses are necessary for whole-genome association studies in humans [J].
Carlson, CS ;
Eberle, MA ;
Rieder, MJ ;
Smith, JD ;
Kruglyak, L ;
Nickerson, DA .
NATURE GENETICS, 2003, 33 (04) :518-521
[4]   High-resolution patterns of meiotic recombination across the human major histocompatibility complex [J].
Cullen, M ;
Perfetto, SP ;
Klitz, W ;
Nelson, G ;
Carrington, M .
AMERICAN JOURNAL OF HUMAN GENETICS, 2002, 71 (04) :759-776
[5]   MAXIMUM LIKELIHOOD FROM INCOMPLETE DATA VIA EM ALGORITHM [J].
DEMPSTER, AP ;
LAIRD, NM ;
RUBIN, DB .
JOURNAL OF THE ROYAL STATISTICAL SOCIETY SERIES B-METHODOLOGICAL, 1977, 39 (01) :1-38
[6]  
EXCOFFIER L, 1995, MOL BIOL EVOL, V12, P921
[7]  
Excoffier LGL, 2001, HDB STAT GENETICS
[8]   Genome association studies of complex diseases by case-control designs [J].
Fan, RZ ;
Knapp, M .
AMERICAN JOURNAL OF HUMAN GENETICS, 2003, 72 (04) :850-868
[9]   Association of NOD2 leucine-rich repeat variants with susceptibility to Crohn's disease [J].
Hugot, JP ;
Chamaillard, M ;
Zouali, H ;
Lesage, S ;
Cézard, JP ;
Belaiche, J ;
Almer, S ;
Tysk, C ;
O'Morain, CA ;
Gassull, M ;
Binder, V ;
Finkel, Y ;
Cortot, A ;
Modigliani, R ;
Laurent-Puig, P ;
Gower-Rousseau, C ;
Macry, J ;
Colombel, JF ;
Sahbatou, M ;
Thomas, G .
NATURE, 2001, 411 (6837) :599-603
[10]   Intensely punctate meiotic recombination in the class II region of the major histocompatibility complex [J].
Jeffreys, AJ ;
Kauppi, L ;
Neumann, R .
NATURE GENETICS, 2001, 29 (02) :217-222