Abraham L J, Marley J V, Nedospasov S A, Cambon-Thomsen A, Crouau-Roy B, Dawkins R L, Giphart M J
Department of Clinical Immunology, Royal Perth Hospital, Western Australia.
Hum Immunol. 1993 Sep;38(1):17-23. doi: 10.1016/0198-8859(93)90515-3.
The location of the TNF and other genes in the central MHC and their possible relevance to disease susceptibility provided an impetus to develop useful typing markers. The 4AOHW undertook to assess the various markers available, including DNA sequence-based systems. A panel of well-characterized lymphoblastoid cell lines were typed by Nco I RLFP analysis, SSO typing, and TNF microsatellite typing. RFLP and SSO typing were relatively reproducible as judged by the blind replicates. The two techniques provided the same results with only one exception, and it would be reasonable to prefer SSO typing because of its advantages in terms of cost and time. Microsatellite typing was much more discriminating but, as expected, less robust in that some discrepancies were apparent. As a result of the workshop and subsequent testing, alleles and haplotypes were allocated to most cells within the 4AOHW panel, including 10W cells typed in previous studies. While there was evidence that microsatellites may be relatively stable, they have the potential to identify recent mutations within ancestral haplotypes.
肿瘤坏死因子(TNF)及其他基因在主要组织相容性复合体(MHC)中的定位及其与疾病易感性的潜在关联,推动了有用分型标志物的开发。4AOHW着手评估包括基于DNA序列的系统在内的各种可用标志物。通过Nco I限制性片段长度多态性(RLFP)分析、序列特异性寡核苷酸(SSO)分型和TNF微卫星分型,对一组特征明确的淋巴母细胞系进行了分型。通过盲法重复实验判断,RLFP和SSO分型相对可重复。这两种技术仅在一个例外情况下得出相同结果,鉴于SSO分型在成本和时间方面的优势,优先选择它是合理的。微卫星分型的区分度更高,但正如预期的那样,其稳健性较差,因为存在一些明显的差异。经过研讨会及后续测试,已为4AOHW小组内的大多数细胞(包括先前研究中分型的10W细胞)分配了等位基因和单倍型。虽然有证据表明微卫星可能相对稳定,但它们有可能识别祖先单倍型内的近期突变。
