在 CAGI 6 实验中快速区分有害和良性错义突变。

IF 3.8 3区医学 Q2 GENETICS & HEREDITY

Human Genomics Pub Date : 2024-08-27 DOI:10.1186/s40246-024-00655-z

Eshel Faraggi, Robert L Jernigan, Andrzej Kloczkowski

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引用次数: 0

摘要

我们介绍了在 CAGI 6 实验中应用的机器学习工具，该工具用于预测蛋白质中的单残基突变是有害的还是良性的。该工具仅使用单序列进行训练，即不使用多序列比对或结构信息。相反，我们使用了蛋白质序列的全局特征。人类基因突变的训练和测试数据来自 ClinVar (ncbi.nlm.nih.gov/pub/ClinVar/)，非人类基因突变的训练和测试数据来自 Uniprot (www.uniprot.org)。对来自 ClinVar 的训练后数据进行了测试。测试结果表明，训练有素的示例具有较高的 AUC 和马修斯相关系数 (MCC)，但通用性较低。对于训练数据稀少或不平衡的基因，预测准确率较低。由此产生的预测服务器可在 http://www.mamiris.com/Shoni.cagi6 在线查阅。

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Rapid discrimination between deleterious and benign missense mutations in the CAGI 6 experiment.

We describe the machine learning tool that we applied in the CAGI 6 experiment to predict whether single residue mutations in proteins are deleterious or benign. This tool was trained using only single sequences, i.e., without multiple sequence alignments or structural information. Instead, we used global characterizations of the protein sequence. Training and testing data for human gene mutations was obtained from ClinVar (ncbi.nlm.nih.gov/pub/ClinVar/), and for non-human gene mutations from Uniprot (www.uniprot.org). Testing was done on post-training data from ClinVar. This testing yielded high AUC and Matthews correlation coefficient (MCC) for well trained examples but low generalizability. For genes with either sparse or unbalanced training data, the prediction accuracy is poor. The resulting prediction server is available online at http://www.mamiris.com/Shoni.cagi6.

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来源期刊

Human Genomics GENETICS & HEREDITY-

CiteScore

6.00

自引率

2.20%

发文量

审稿时长

11 weeks

期刊介绍： Human Genomics is a peer-reviewed, open access, online journal that focuses on the application of genomic analysis in all aspects of human health and disease, as well as genomic analysis of drug efficacy and safety, and comparative genomics. Topics covered by the journal include, but are not limited to: pharmacogenomics, genome-wide association studies, genome-wide sequencing, exome sequencing, next-generation deep-sequencing, functional genomics, epigenomics, translational genomics, expression profiling, proteomics, bioinformatics, animal models, statistical genetics, genetic epidemiology, human population genetics and comparative genomics.