Classifying individuals among infra-specific taxa using microsatellite data and neural networks.

Comptes rendus de l'Academie des sciences. Serie III, Sciences de la vie Pub Date : 1996-12-01

J M Cornuet, S Aulagnier, S Lek, S Franck, M Solignac

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Abstract

The method of neural networks was tested for its ability to assign individuals on the basis of their multilocus genotypes, using a data collection of 430 honeybees and 8 microsatellite loci. This data set includes various taxonomical levels (populations within the same subspecies, various subspecies belonging to the same evolutionary lineage, and the 3 lineages of the species). Qualitative genotypic data have been submitted to 2 types of transformation (simple coding and coding plus factorial correspondence analysis), and they have been partitioned in 2 sets, a training set of 300 individuals and a testing set of 103 individuals. Two procedures ("leave one out" and "hold out") were applied to evaluate the quality of prediction. Compared to discriminant analysis, neural networks performed better in terms of correctly classified individuals at any taxonomical level. For instance, with the simple coding and the hold out procedure, the proportions of correctly assigned individuals from the testing set were 66.2%, 82.3% and 100% at the populations, subspecies and lineage level, respectively. The potential use of neural networks in populations genetics is discussed.

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利用微卫星数据和神经网络对亚种分类群进行个体分类。

利用收集的430只蜜蜂和8个微卫星位点的数据，测试了神经网络方法根据多位点基因型分配个体的能力。该数据集包括不同的分类水平(同一亚种内的种群，属于同一进化谱系的各种亚种，以及该物种的3个谱系)。定性基因型数据提交了2种转换(简单编码和编码加因子对应分析)，并将其划分为2个集，一个300人的训练集和一个103人的测试集。两个程序(“留一个”和“保留”)被用于评估预测的质量。与判别分析相比，神经网络在正确分类个体方面表现更好。通过简单的编码和保留程序，在种群、亚种和谱系水平上，测试集的正确分配比例分别为66.2%、82.3%和100%。讨论了神经网络在群体遗传学中的潜在应用。

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Comptes rendus de l'Academie des sciences. Serie III, Sciences de la vie

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