Laryngeal cancer risk and common single nucleotide polymorphisms in nucleotide excision repair pathway genes ERCC1, ERCC2, ERCC3, ERCC4, ERCC5 and XPA.

[1]  Huixiang Li,et al.  Polymorphisms in the ERCC1 and XPF genes and risk of breast cancer in a Chinese population. , 2013, Genetic testing and molecular biomarkers.

[2]  Edward J Merino,et al.  Novel oxidatively activated agents modify DNA and are enhanced by ercc1 silencing. , 2012, Chemical research in toxicology.

[3]  Menghong Sun,et al.  Polymorphisms in ERCC1 and XPF Genes and Risk of Gastric Cancer in an Eastern Chinese Population , 2012, PloS one.

[4]  Jing He,et al.  Association between the ERCC5 Asp1104His Polymorphism and Cancer Risk: A Meta-Analysis , 2012, PloS one.

[5]  U. Vogel,et al.  A specific diplotype defined by PPP1R13L rs1970764, CD3EAP rs967591 and ERCC1 rs11615 and lung cancer risk in a Chinese population. , 2012, Lung cancer.

[6]  Nu Zhang,et al.  ERCC1 Polymorphisms and Risk of Adult Glioma in a Chinese Population: A Hospital-Based Case-Control Study , 2012, Cancer investigation.

[7]  A. Stepulak,et al.  Preliminary results of prognostic significance of proliferating cell nuclear antigen expression in advanced primary larynx carcinomas and lymph node metastases , 2010, Archives of medical science : AMS.

[8]  H. Becher,et al.  Laryngeal cancer risk associated with smoking and alcohol consumption is modified by genetic polymorphisms in ERCC5, ERCC6 and RAD23B but not by polymorphisms in five other nucleotide excision repair genes , 2009, International journal of cancer.

[9]  Bo Zhu,et al.  Polymorphisms of CYP1A1 and GSTM1 and laryngeal cancer risk: evidence-based meta-analyses , 2009, Journal of Cancer Research and Clinical Oncology.

[10]  K. Yoshimasu,et al.  Genetic polymorphisms in the nucleotide excision repair pathway and lung cancer risk: A meta-analysis , 2007, International journal of medical sciences.

[11]  C. la Vecchia,et al.  Effects of smoking cessation on the risk of laryngeal cancer: an overview of published studies. , 2006, Oral oncology.

[12]  H. Morgenstern,et al.  Polymorphism of Xeroderma Pigmentosum group G and the risk of lung cancer and squamous cell carcinomas of the oropharynx, larynx and esophagus , 2006, International journal of cancer.

[13]  A. Parker,et al.  Laryngeal dysplasia: aetiology and molecular biology , 2005, The Journal of Laryngology & Otology.

[14]  A. Sarasin,et al.  Transcription-Coupled Repair of 8-oxoguanine: Requirement for XPG, TFIIH, and CSB and Implications for Cockayne Syndrome , 2005, Cell.

[15]  Z. Darżynkiewicz,et al.  Induction of H2AX Phosphorylation in Pulmonary Cells by Tobacco Smoke: A New Assay for Carcinogens , 2004, Cell cycle.

[16]  Jack A. Taylor,et al.  DNA repair gene XRCC1 polymorphisms, smoking, and bladder cancer risk. , 2001, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology.

[17]  A. Sarasin,et al.  RETRACTED: Transcription-Coupled Repair of 8-oxoGuanine Requirement for XPG, TFIIH, and CSB and Implications for Cockayne Syndrome , 2000, Cell.

[18]  J. Lamerdin,et al.  Characterization of the mouse Xpf DNA repair gene and differential expression during spermatogenesis. , 1999, Genomics.

[19]  J. Ferlay,et al.  Cancer Incidence in Five Continents , 1997 .

[20]  H. Joenje,et al.  Genetic toxicology of oxygen. , 1989, Mutation research.

[21]  A. Kiltie,et al.  DNA double strand break repair in human bladder cancer is error prone and involves microhomology-associated end-joining. , 2004, Nucleic acids research.