An algorithm for comparing two-dimensional electrophoretic gels, with particular reference to the study of mutation.

M M Skolnick, J V Neel
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引用次数: 23

Abstract

An algorithm dedicated to the detection of presumed mutational events involving the polypeptides displayed with two-dimensional polyacrylamide gel electrophoresis has been described. Because of the large number of gels necessary in most studies of mutation, the algorithm has been designed to minimize operator intervention in its execution. The basic principle involves a comparison of the graph structures of the gels of a father, mother, and one or more children, searching for protein spots in the child not found in either parent. These so-called "orphan" spots are considered a probable manifestation of mutation only after other possible causes of such an isolated event have been excluded as rigorously as possible. At present, the analysis of gels prepared from a platelet or erythrocyte lysate yields about 2% "false-positive" findings, i.e., results in the incorrect designation of a unique spot in a child. These errors can be disposed of by technician intervention. In an experiment designed to simulate the occurrence of mutational events, the algorithm operated with 70% accuracy. Most of the "errors" ("false negatives") occurred when the position of the simulated mutant polypeptide coincided in whole or part with that of a preexisting polypeptide, resulting in a class of mutation not detectable by the eye either. With correction for this fact, the accuracy was 84%. Possible improvements in the algorithm which would substantially increase accuracy have been discussed at some length, as have some ideas as to how to manage the large body of data resulting from the operation of the algorithm. A murine experiment designed to validate the approach has been outlined.

一种比较二维电泳凝胶的算法,特别涉及突变的研究。
一个算法专门用于检测假定的突变事件涉及多肽显示与二维聚丙烯酰胺凝胶电泳已被描述。由于在大多数突变研究中需要大量的凝胶,因此该算法被设计为尽量减少操作人员对其执行的干预。基本原理包括比较父亲、母亲和一个或多个孩子的凝胶图结构,在孩子身上寻找父母双方都没有的蛋白质斑点。只有在尽可能严格地排除了这种孤立事件的其他可能原因之后,这些所谓的“孤儿”点才被认为是突变的可能表现。目前,对血小板或红细胞裂解液制备的凝胶的分析产生约2%的“假阳性”结果,即导致错误地指定儿童的独特斑点。这些错误可以通过技术人员的干预来解决。在模拟突变事件发生的实验中,该算法的准确率达到70%。大多数“错误”(“假阴性”)发生在模拟突变多肽的位置全部或部分与先前存在的多肽的位置重合时,导致眼睛也无法检测到一类突变。对这一事实进行校正后,准确率为84%。在算法中可能的改进,将大大提高准确性,已经讨论了一些长度,以及一些想法,如何管理由算法的操作产生的大量数据。一项旨在验证该方法的小鼠实验已经概述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in Human Genetics
Advances in Human Genetics Genetics, Medical-
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