1Lookwood W, Coe B, Garnis C, et al. Whole genome comparison of SCLC and NSCLC cells identifies novel signature genetic alteration. Lung Cancer,2005,49(Suppl 2):S9(O-016).
2Garnis C, Buys T, Lockwood W, et al. Detection of novel genetic alterations in non-small cell lung carcinoma. Lung Cancer,2005,49(Suppl 2):S125(P-040).
3Davies J, Shubeler D, Lam W,et al. Comprehensive epigenomic profiling of matched normal and tumour lung cell lines. Lung Cancer,2005,49(Suppl 2):S122(P-028).
4Coe B, Lee E, Girard, et al. Fine mapping of SCLC tumors and cell lines by high resolution array CGH identifies novel alterations.Lung Cancer,2005,49(Suppl 2):S122(P-025).
5Linnoila I, Kim H, Wang X, et al. Validation of gene associated with Achaete-scute Homologue-1 that regulate the growth of pulmonary neuroendocrine carcinomas in mice and men. Lung Cancer,2005,49(Suppl 2):S135(P-079).
6Tan E, Hsu A, Eng P, et al. Molecular profiling of lung cancers: Can it be used as a clinical tool? Lung Cancer,2005,49(Suppl 2):S147(P-123).
7Ewis A, Kondo A, Shinohara Y, et al. Occupational lung cancer: Application of microarray technology for monitoring gene expression patterns in chromate-related lung cancer. Lung Cancer,2005,49(Suppl 2):S124(P-034).
8Cho M, Lee Y, Choi D, et al. Gene expression profiles by radiation in the skin of hairless mice. Lung Cancer,2005,49(Suppl 2):S121(P-020).
9Snead D, Dhillon D, Vohra H, et al. Genome-wide analysis of LOH by SNP microarry to demonstrate chromosome losses common to both pre-cursor lesion and invasive lung cancer. Lung Cancer,2005,49(Suppl 2):S146(P-118).
10Chan T, MacAulay C, Lam W, et al. Finding biomarker specific for early stages of lung cancer using SAGE data. Lung Cancer,2005,49(Suppl 2):S8(O-014).
2Cheung VG,Dalrymple HL,Narasimhan H,et al.A resource of mapped human bacterial artificial chromosome clones[J].Genome Res,1999,9(10):989-993.
3Pollack JR,Perou CM,Alizadeh AA,et al.Genome-wide analysis of DNA copy-number changes using cDNA microarrays[J].Nat Genet,1999,23:41-46.
4Mehta KR,Nakao K,Zuraek,et al.Fractional genomic alteration detected by array-based comparative genomic hybridization independently predicts survival after hepatic resection for metastatic colorectal cancer[J].Clin Cancer Res,2005,5:1791-1797.
5Saito-Ohara F,Imoto I,Inoue J,et al.PPM1D Is a Potential Target for 17q Gain in Neuroblastoma[J].Cancer Res,2003,63(8):1876-1883.
6Fiegler H,Carr P,Douglas EJ,et al.DNA microarrays for comparative genomic hybridization based on DOP-PCR amplification of BAC and PAC clones[J].Genes Chromosomes Cancer,2003,36:361-374.
7Ariyama Y,Sakabe T,Shinomiya T,et al.Identification of amplified DNA sequences on double minute chromosomes in a leukemic cell line KY821 by means of spectral karyotyping and comparative genomic hybridization[J].J Hum Genet,1998,43:187-190.
8Osoegawa K,Mammoser AG,Wu C,et al.A bacterial artificial chromosome library for sequencing the complete human genome[J].Genome Res,2001,11:483-496.
9Albertson DG,Pinkel D.Genomic microarrays in human genetic disease and cancer[J].Hum Mol Genet,2003,12:145-152.
10Bejjani BA,Saleki R,Ballif BC,et al.Use of targeted array-based CGH for the clinical diagnosis of chromosomal imbalance:is less more?[J].Am J Med Genet A,2005,3:259-267.
