HuGE Literature Finder
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Dietary heterocyclic amine intake, NAT2 genetic polymorphism, and colorectal adenoma risk: the colorectal adenoma study in Tokyo. Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology 2015 Mar 24 (3): 613-20. Budhathoki Sanjeev, Iwasaki Motoki, Yamaji Taiki, Sasazuki Shizuka, Takachi Ribeka, Sakamoto Hiromi, Yoshida Teruhiko, Tsugane Shoichi |
Association of NAT2 polymorphisms with risk of colorectal adenomas: Evidence from 3,197 cases and 4,681 controls. Experimental and therapeutic medicine 2012 Nov 4 (5): 895-900. Zhuo Wenlei, Zhang Liang, Qiu Zhiqun, Cai Lei, Zhu Bo, Chen Zhengta |
N-acetyltransferase polymorphism and risk of colorectal adenoma and cancer: a pooled analysis of variations from 59 studies. PloS one 2012 7 (8): e42797. Liu Jinxin, Ding Dapeng, Wang Xiaoxue, Chen Yizhi, Li Rong, Zhang Ying, Luo Rongche |
Polymorphisms in heterocyclic aromatic amines metabolism-related genes are associated with colorectal adenoma risk. International journal of molecular epidemiology and genetics 2012 3 (2): 96-106. Eichholzer Monika, Rohrmann Sabine, Barbir Aline, Hermann Silke, Teucher Birgit, Kaaks Rudolf, Linseisen Jak |
Genetic variation in the bioactivation pathway for polycyclic hydrocarbons and heterocyclic amines in relation to risk of colorectal neoplasia. Carcinogenesis 2011 Feb 32 (2): 203-9. Wang Hansong, Yamamoto Jennifer F, Caberto Christian, Saltzman Barbara, Decker Robert, Vogt Thomas M, Yokochi Lance, Chanock Stephen, Wilkens Lynne R, Le Marchand Lo |
Gene-smoking interaction on colorectal adenoma and cancer risk: review and meta-analysis. Mutation research 2009 Jul . Raimondi S, Botteri E, Iodice S, Lowenfels AB, Maisonneuve P |
Meat intake, heterocyclic amine exposure, and metabolizing enzyme polymorphisms in relation to colorectal polyp risk. Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology 2008 Feb 17 (2): 320-9. Shin Aesun, Shrubsole Martha J, Rice Jeffrey M, Cai Qiuyin, Doll Mark A, Long Jirong, Smalley Walter E, Shyr Yu, Sinha Rashmi, Ness Reid M, Hein David W, Zheng W |
Cigarette smoking, N-acetyltransferase genes and the risk of advanced colorectal adenoma. Pharmacogenomics 2006 Sep 7 (6): 819-29. Moslehi Roxana, Chatterjee Nilanjan, Church Timothy R, Chen Jinbo, Yeager Meredith, Weissfeld Joel, Hein David W, Hayes Richard |
Risk of colorectal adenomas in relation to meat consumption, meat preparation, and genetic susceptibility in a Dutch population. Cancer causes & control : CCC 2004 Apr 15 (3): 225-36. Tiemersma EW, Voskuil DW, Bunschoten A, Hogendoorn EA, Witteman BJ, Nagengast FM, Glatt H, Kok FJ, Kampman E |
Effect of SULT1A1 and NAT2 genetic polymorphism on the association between cigarette smoking and colorectal adenomas. International journal of cancer. Journal international du cancer 2004 Jan 108 (1): 97-103. Tiemersma Edine W, Bunschoten Annelies, Kok Frans J, Glatt Hansruedi, de Boer Sybrand Y, Kampman Ell |
Low-penetrance genes and their involvement in colorectal cancer susceptibility. Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology 2002 Nov 11 (11): 1332-52. de Jong Mirjam M, Nolte Ilja M, te Meerman Gerard J, van der Graaf Winette T A, de Vries Elisabeth G E, Sijmons Rolf H, Hofstra Robert M W, Kleibeuker Jan |
[N-actyltransferase2 polymorphism in recurrence of colorectal polyps and adenomas]. Zhonghua yi xue za zhi 2001 Aug 81 (15): 907-9. Zheng S, Liu X, Cao |
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