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本文引用的文献

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Allele frequency distributions in pooled DNA samples: applications to mapping complex disease genes.混合DNA样本中的等位基因频率分布:在复杂疾病基因定位中的应用
Genome Res. 1998 Feb;8(2):111-23. doi: 10.1101/gr.8.2.111.
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Consistent genetic alterations in xenografts of proximal stomach and gastro-esophageal junction adenocarcinomas.近端胃癌和胃食管交界腺癌异种移植中的一致性基因改变。
Cancer Res. 1998 Jan 1;58(1):34-7.
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Nucleic acid-based methods for the detection of cancer.基于核酸的癌症检测方法。
Science. 1997 Nov 7;278(5340):1054-9. doi: 10.1126/science.278.5340.1054.
4
Patterns of allelic loss on chromosome 17 in sporadic breast carcinomas detected by fluorescent-labeled microsatellite analysis.通过荧光标记微卫星分析检测散发性乳腺癌中17号染色体上等位基因缺失模式。
Genes Chromosomes Cancer. 1997 Mar;18(3):181-92. doi: 10.1002/(sici)1098-2264(199703)18:3<181::aid-gcc5>3.0.co;2-y.
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An approach to high-throughput genotyping.一种高通量基因分型方法。
Genome Res. 1996 Sep;6(9):781-90. doi: 10.1101/gr.6.9.781.
6
Cytokeratin labeling of breast cancer cells extracted from paraffin-embedded tissue for bivariate flow cytometric analysis.从石蜡包埋组织中提取乳腺癌细胞进行双变量流式细胞术分析的细胞角蛋白标记。
Cytometry. 1996 Jul 1;24(3):260-7. doi: 10.1002/(SICI)1097-0320(19960701)24:3<260::AID-CYTO9>3.0.CO;2-L.
7
Reliable genotyping of samples with very low DNA quantities using PCR.使用聚合酶链反应(PCR)对极低DNA量的样本进行可靠的基因分型。
Nucleic Acids Res. 1996 Aug 15;24(16):3189-94. doi: 10.1093/nar/24.16.3189.
8
17p (p53) allelic losses, 4N (G2/tetraploid) populations, and progression to aneuploidy in Barrett's esophagus.17号染色体短臂(p53)等位基因缺失、四倍体(G2期/四倍体)群体以及巴雷特食管向非整倍体的进展。
Proc Natl Acad Sci U S A. 1996 Jul 9;93(14):7081-4. doi: 10.1073/pnas.93.14.7081.
9
Simultaneous assessment of loss of heterozygosity at multiple microsatellite loci using semi-automated fluorescence-based detection: subregional mapping of chromosome 4 in cervical carcinoma.使用基于荧光的半自动检测同时评估多个微卫星位点的杂合性缺失:宫颈癌中4号染色体的亚区域定位
Proc Natl Acad Sci U S A. 1996 Jun 25;93(13):6704-9. doi: 10.1073/pnas.93.13.6704.
10
Determination of the frequency of loss of heterozygosity in esophageal adenocarcinoma by cell sorting, whole genome amplification and microsatellite polymorphisms.通过细胞分选、全基因组扩增和微卫星多态性测定食管腺癌中杂合性缺失的频率
Oncogene. 1996 May 2;12(9):1873-8.

使用全基因组扩增、细胞分选和基于荧光的聚合酶链反应进行杂合性缺失分析。

Loss of heterozygosity analysis using whole genome amplification, cell sorting, and fluorescence-based PCR.

作者信息

Paulson T G, Galipeau P C, Reid B J

机构信息

Programs in Cancer Biology and GI Oncology, Public Health Sciences, Fred Hutchinson Cancer Research Center, Seattle, Washington 98104, USA.

出版信息

Genome Res. 1999 May;9(5):482-91.

PMID:10330128
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC310769/
Abstract

Loss of heterozygosity (LOH) is a common genetic lesion found in many human neoplasms. Extending investigation of LOH to large-scale clinical and public health science studies has proven difficult because of the small size and cellular and genetic heterogeneity of human neoplasms, in addition to the challenges associated with increasing throughput. Our approach to LOH analysis was developed using clinical biopsy samples from patients with Barrett's esophagus (BE) and uses flow cytometric cell sorting to increase sample purity, whole genome amplification to increase sample amount, and automated fluorescent genotyping to increase sample throughput. This approach allows LOH assessment at 20 loci in DNA extracted from 1000 flow-purified cells while maintaining accurate and reproducible allele ratios compared with the standard method of using genomic DNA. This method of analysis should allow accurate, reproducible determination of allele ratios in a variety of human tumors and premalignant conditions.

摘要

杂合性缺失(LOH)是在许多人类肿瘤中发现的常见基因损伤。由于人类肿瘤体积小、细胞和基因具有异质性,再加上提高通量所面临的挑战,将LOH的研究扩展到大规模临床和公共卫生科学研究已被证明是困难的。我们用于LOH分析的方法是利用巴雷特食管(BE)患者的临床活检样本开发的,该方法使用流式细胞术细胞分选来提高样本纯度,使用全基因组扩增来增加样本量,并使用自动荧光基因分型来提高样本通量。与使用基因组DNA的标准方法相比,这种方法能够在从1000个经流式纯化的细胞中提取的DNA中对20个位点进行LOH评估,同时保持准确且可重复的等位基因比率。这种分析方法应能在各种人类肿瘤和癌前病变中准确、可重复地确定等位基因比率。