|Association analyses of 249,796 individuals reveal 18 new loci associated with body mass index|
EK Speliotes, CJ Willer, SI Berndt, KL Monda, G Thorleifsson, AU Jackson, ...
Nature genetics 42 (11), 937-948, 2010
|Hundreds of variants clustered in genomic loci and biological pathways affect human height|
H Lango Allen, K Estrada, G Lettre, SI Berndt, MN Weedon, F Rivadeneira, ...
Nature 467 (7317), 832-838, 2010
|A genome-wide association study identifies alleles in FGFR2 associated with risk of sporadic postmenopausal breast cancer|
DJ Hunter, P Kraft, KB Jacobs, DG Cox, M Yeager, SE Hankinson, ...
Nature genetics 39 (7), 870-874, 2007
|Genome-wide association study of prostate cancer identifies a second risk locus at 8q24|
M Yeager, N Orr, RB Hayes, KB Jacobs, P Kraft, S Wacholder, ...
Nature genetics 39 (5), 645-649, 2007
|Pan-cancer analysis of whole genomes|
Nature 578 (7793), 82-93, 2020
|Multiple loci identified in a genome-wide association study of prostate cancer|
G Thomas, KB Jacobs, M Yeager, P Kraft, S Wacholder, N Orr, K Yu, ...
Nature genetics 40 (3), 310-315, 2008
|NAT2 slow acetylation, GSTM1 null genotype, and risk of bladder cancer: results from the Spanish Bladder Cancer Study and meta-analyses|
M García-Closas, N Malats, D Silverman, M Dosemeci, M Kogevinas, ...
The Lancet 366 (9486), 649-659, 2005
|Estimation of effect size distribution from genome-wide association studies and implications for future discoveries|
JH Park, S Wacholder, MH Gail, U Peters, KB Jacobs, SJ Chanock, ...
Nature genetics 42 (7), 570-575, 2010
|Polygenic risk scores for prediction of breast cancer and breast cancer subtypes|
N Mavaddat, K Michailidou, J Dennis, M Lush, L Fachal, A Lee, JP Tyrer, ...
The American Journal of Human Genetics 104 (1), 21-34, 2019
|Estrogen receptor breast cancer phenotypes in the Surveillance, Epidemiology, and End Results database|
WF Anderson, N Chatterjee, WB Ershler, OW Brawley
Breast cancer research and treatment 76, 27-36, 2002
|A multistage genome-wide association study in breast cancer identifies two new risk alleles at 1p11.2 and 14q24.1 (RAD51L1)|
G Thomas, KB Jacobs, P Kraft, M Yeager, S Wacholder, DG Cox, ...
Nature genetics 41 (5), 579-584, 2009
|Developing and evaluating polygenic risk prediction models for stratified disease prevention|
N Chatterjee, J Shi, M García-Closas
Nature Reviews Genetics 17 (7), 392-406, 2016
|Detectable clonal mosaicism and its relationship to aging and cancer|
KB Jacobs, M Yeager, W Zhou, S Wacholder, Z Wang, ...
Nature genetics 44 (6), 651-658, 2012
|A genome-wide association study of lung cancer identifies a region of chromosome 5p15 associated with risk for adenocarcinoma|
MT Landi, N Chatterjee, K Yu, LR Goldin, AM Goldstein, M Rotunno, ...
The american journal of human genetics 85 (5), 679-691, 2009
|A multi-stage genome-wide association study of bladder cancer identifies multiple susceptibility loci|
N Rothman, M Garcia-Closas, N Chatterjee, N Malats, X Wu, JD Figueroa, ...
Nature genetics 42 (11), 978-984, 2010
|Dietary fibre and colorectal adenoma in a colorectal cancer early detection programme|
U Peters, R Sinha, N Chatterjee, AF Subar, RG Ziegler, M Kulldorff, ...
The Lancet 361 (9368), 1491-1495, 2003
|BOADICEA: a comprehensive breast cancer risk prediction model incorporating genetic and nongenetic risk factors|
A Lee, N Mavaddat, AN Wilcox, AP Cunningham, T Carver, S Hartley, ...
Genetics in Medicine 21 (8), 1708-1718, 2019
|Prospective study of fruit and vegetable intake and risk of prostate cancer|
VA Kirsh, U Peters, ST Mayne, AF Subar, N Chatterjee, CC Johnson, ...
Journal of the National Cancer Institute 99 (15), 1200-1209, 2007
|Multiple independent loci at chromosome 15q25. 1 affect smoking quantity: a meta-analysis and comparison with lung cancer and COPD|
NL Saccone, RC Culverhouse, TH Schwantes-An, DS Cannon, X Chen, ...
PLoS genetics 6 (8), e1001053, 2010
|Projecting the performance of risk prediction based on polygenic analyses of genome-wide association studies|
N Chatterjee, B Wheeler, J Sampson, P Hartge, SJ Chanock, JH Park
Nature genetics 45 (4), 400-405, 2013