生物
SNP阵列
单亲二体
细胞遗传学
杂合子丢失
比较基因组杂交
分子反转探针
基因分型
遗传学
多重连接依赖探针扩增
染色体易位
计算生物学
基因组
染色体
单核苷酸多态性
核型
基因型
基因
等位基因
外显子
作者
Jaroslaw P. Maciejewski,Ghulam J. Mufti
出处
期刊:Blood
[Elsevier BV]
日期:2008-05-28
卷期号:112 (4): 965-974
被引量:134
标识
DOI:10.1182/blood-2008-02-130435
摘要
Abstract Over the years, methods of cytogenetic analysis evolved and became part of routine laboratory testing, providing valuable diagnostic and prognostic information in hematologic disorders. Karyotypic aberrations contribute to the understanding of the molecular pathogenesis of disease and thereby to rational application of therapeutic modalities. Most of the progress in this field stems from the application of metaphase cytogenetics (MC), but recently, novel molecular technologies have been introduced that complement MC and overcome many of the limitations of traditional cytogenetics, including a need for cell culture. Whole genome scanning using comparative genomic hybridization and single nucleotide polymorphism arrays (CGH-A; SNP-A) can be used for analysis of somatic or clonal unbalanced chromosomal defects. In SNP-A, the combination of copy number detection and genotyping enables diagnosis of copy-neutral loss of heterozygosity, a lesion that cannot be detected using MC but may have important pathogenetic implications. Overall, whole genome scanning arrays, despite the drawback of an inability to detect balanced translocations, allow for discovery of chromosomal defects in a higher proportion of patients with hematologic malignancies. Newly detected chromosomal aberrations, including somatic uniparental disomy, may lead to more precise prognostic schemes in many diseases.
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