Identifying genes related to radiation resistance in oral squamous cell carcinoma cell lines.

[1]  C. Svendsen,et al.  A High Concentration of Epidermal Growth Factor Increases the Growth and Survival of Neurogenic Radial Glial Cells Within Human Neurosphere Cultures , 2008, Stem cells.

[2]  Yulan He,et al.  Downregulated NM23-H1 expression is associated with intracranial invasion of nasopharyngeal carcinoma , 2008, British Journal of Cancer.

[3]  Jeou-Yuan Chen,et al.  Nm23‐H1 expression of metastatic tumors in the lymph nodes is a prognostic indicator of oral squamous cell carcinoma , 2008, International journal of cancer.

[4]  A. Giatromanolaki,et al.  Hypoxia inducible factor (HIF1α and HIF2α) and carbonic anhydrase 9 (CA9) expression and response of head-neck cancer to hypofractionated and accelerated radiotherapy , 2008, International journal of radiation biology.

[5]  Wenlin Huang,et al.  Aurora-A, a negative prognostic marker, increases migration and decreases radiosensitivity in cancer cells. , 2007, Cancer research.

[6]  Hung-Ming Wang,et al.  Differentially expressed genes in radioresistant nasopharyngeal cancer cells: gp96 and GDF15 , 2007, Molecular Cancer Therapeutics.

[7]  Kengo Saito,et al.  Genes and molecular pathways related to radioresistance of oral squamous cell carcinoma cells , 2007, International journal of cancer.

[8]  N. Seki,et al.  Identification of candidate radioresistant genes in human squamous cell carcinoma cells through gene expression analysis using DNA microarrays. , 2005, Oncology reports.

[9]  Hyun Cheol Chung,et al.  Determination of genes related to gastrointestinal tract origin cancer cells using a cDNA microarray. , 2005, Clinical cancer research : an official journal of the American Association for Cancer Research.

[10]  Y. Hayashizaki,et al.  Differential gene expression profiles of radioresistant oesophageal cancer cell lines established by continuous fractionated irradiation , 2004, British Journal of Cancer.

[11]  Kuang-Tai Kuo,et al.  Prognostic significance of nm23-H1 expression in esophageal squamous cell carcinoma. , 2004, European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery.

[12]  K. Chow,et al.  Prognostic significance of nm23-H1 expression in oral squamous cell carcinoma , 2004, British Journal of Cancer.

[13]  Deqin Ma,et al.  The Metastasis Suppressor NM23-H1 Possesses 3′-5′ Exonuclease Activity* , 2004, Journal of Biological Chemistry.

[14]  G. Hannon,et al.  The centrosomal kinase Aurora-A/STK15 interacts with a putative tumor suppressor NM23-H1. , 2002, Nucleic acids research.

[15]  R. Weber,et al.  Local recurrence in head and neck cancer: relationship to radiation resistance and signal transduction. , 2002, Clinical cancer research : an official journal of the American Association for Cancer Research.

[16]  S Silverman,et al.  Demographics and occurrence of oral and pharyngeal cancers. The outcomes, the trends, the challenge. , 2001, Journal of the American Dental Association.

[17]  Naoki Watanabe,et al.  Survivin as a Radioresistance Factor in Pancreatic Cancer , 2000, Japanese journal of cancer research : Gann.

[18]  K. Pavelić,et al.  Increased activity of nm23-H1 gene in squamous cell carcinoma of the head and neck is associated with advanced disease and poor prognosis , 2000, Journal of Molecular Medicine.

[19]  M. Imamura,et al.  Role of Bcl-2 family proteins (Bax, Bcl-2 and Bcl-X) on cellular susceptibility to radiation in pancreatic cancer cells. , 1999, European journal of cancer.

[20]  M. Jackson,et al.  Gene expression profiles of laser-captured adjacent neuronal subtypes , 1999, Nature Medicine.

[21]  A. Shevchenko,et al.  Mass spectrometric sequencing of proteins silver-stained polyacrylamide gels. , 1996, Analytical chemistry.

[22]  E. Brambilla,et al.  Differential c-myc, c-jun, c-raf and p53 expression in squamous cell carcinoma of the head and neck: implication in drug and radioresistance. , 1995, European journal of cancer. Part B, Oral oncology.

[23]  M. Sklar The ras oncogenes increase the intrinsic resistance of NIH 3T3 cells to ionizing radiation. , 1988, Science.

[24]  R. Weichselbaum,et al.  The raf oncogene is associated with a radiation-resistant human laryngeal cancer. , 1987, Science.