1.
Commentary: Post-GWAS era: What can we do beyond cancer genetic association studies?
by Wang, Cheng
International Journal of Epidemiology, 2016, Vol. 45(1), pp.221-222
2.
Detection and molecular analysis of circulating tumor cells for early diagnosis of pancreatic cancer
by Ren, Chuanli
Medical Hypotheses, June 2013, Vol.80(6), pp.833-836
3.
Abstract 238: Interaction analysis between germline susceptibility loci and somatic alterations in lung cancer
by Wang, Yuzhuo
Cancer Research, 07/01/2018, Vol.78(13 Supplement), pp.238-238
4.
Abstract 4155: Genome-wide association study of survival in early stage non-small cell lung cancer
by Ma, Hongxia
Cancer Research, 10/01/2014, Vol.74(19 Supplement), pp.4155-4155
5.
Abstract 2543: A genome-wide analysis of ROHs identifies two susceptibility regions for non-cardia gastric cancer in han Chinese.
by Hu, Zhibin
Cancer Research, 04/15/2013, Vol.73(8 Supplement), pp.2543-2543
6.
Abstract 908: Genetic variants in one-carbon metabolism related genes contribute to NSCLC prognosis in a Chinese population
by Guangfu, Jin
Cancer Research, 04/15/2010, Vol.70(8 Supplement), pp.908-908
7.
8.
Abstract 2545: Genome-wide association study identifies a novel susceptibility locus at 12q23.1 for lung squamous cell carcinoma in Chinese.
by Shen, Hongbing
Cancer Research, 04/15/2013, Vol.73(8 Supplement), pp.2545-2545
9.
Abstract LB-289: Telomere length, genetic variants and gastroesophageal cancer risk: a case-control study in Chinese population
by Du, Jiangbo
Cancer Research, 10/01/2014, Vol.74(19 Supplement), pp.LB-289-LB-289
10.
Genetic Variants at 6p21.1 and 7p15.3 Are Associated with Risk of Multiple Cancers in Han Chinese
by Jin, Guangfu
The American Journal of Human Genetics, 02 November 2012, Vol.91(5), pp.928-934
11.
Genetic variants at 12p11 and 12q24 are associated with breast cancer risk in a Chinese population
by Zhenzhen Qin
PLoS ONE, 01 January 2013, Vol.8(6), p.e66519
12.
13.
Abstract 4598: Low-frequency coding variants in BAT2, HIST1H1E and BPIFB1 are associated with lung cancer risk in Chinese populations
by Jin, Guangfu
Cancer Research, 08/01/2015, Vol.75(15 Supplement), pp.4598-4598
14.
Genetic variants at 1p11.2 and breast cancer risk: a two-stage study in Chinese women.
by Jiang, Yue
PloS one, 2011, Vol.6(6), p.e21563
15.
Genetic variations in the flanking regions of miR-101-2 are associated with increased risk of breast cancer
by Jiaping Chen
PLoS ONE, 01 January 2014, Vol.9(1), p.e86319
16.
Host immune gene polymorphisms were associated with the prognosis of non‐small‐cell lung cancer in Chinese
by Dai, Juncheng
International Journal of Cancer, 01 February 2012, Vol.130(3), pp.671-676
17.
Evaluation of genetic variants in microRNA biosynthesis genes and risk of breast cancer in Chinese women
by Jiang, Yue
International Journal of Cancer, November 2013, Vol.133(9), pp.2216-2224
18.
Plasma miRNAs as early biomarkers for detecting hepatocellular carcinoma
by Wen, Yang
International Journal of Cancer, 01 October 2015, Vol.137(7), pp.1679-1690
19.
Nonsynonymous polymorphisms in FAT4 gene are associated with the risk of esophageal cancer in an Eastern Chinese population
by Du, Jiangbo
International Journal of Cancer, 15 July 2013, Vol.133(2), pp.357-361
20.
Human genome epidemiology, progress and future.
by Shen, Hongbing
Journal of biomedical research, May 2013, Vol.27(3), pp.167-169
