Refinement of genetic variants needs attention

arXiv - QuanBio - Genomics Pub Date : 2024-08-01 DOI:arxiv-2408.00659

Omar Abdelwahab, Davoud Torkamaneh

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Abstract

Variant calling refinement is crucial for distinguishing true genetic variants from technical artifacts in high-throughput sequencing data. Manual review is time-consuming while heuristic filtering often lacks optimal solutions. Traditional variant calling methods often struggle with accuracy, especially in regions of low read coverage, leading to false-positive or false-negative calls. Here, we introduce VariantTransformer, a Transformer-based deep learning model, designed to automate variant calling refinement directly from VCF files in low-coverage data (10-15X). VariantTransformer, trained on two million variants, including SNPs and short InDels, from low-coverage sequencing data, achieved an accuracy of 89.26% and a ROC AUC of 0.88. When integrated into conventional variant calling pipelines, VariantTransformer outperformed traditional heuristic filters and approached the performance of state-of-the-art AI-based variant callers like DeepVariant. Comparative analysis demonstrated VariantTransformer's superiority in functionality, variant type coverage, training size, and input data type. VariantTransformer represents a significant advancement in variant calling refinement for low-coverage genomic studies.

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需要关注基因变异的完善

要从高通量测序数据中区分出真正的遗传变异和技术假象，变异调用的完善至关重要。人工审查非常耗时，而启发式过滤往往缺乏最佳解决方案。传统的变异体调用方法在准确性方面往往存在困难，尤其是在低读数覆盖率区域，从而导致假阳性或假阴性调用。在这里，我们介绍了VariantTransformer，这是一种基于Transformer的深度学习模型，旨在直接从低覆盖率数据（10-15X）的VCF文件中自动进行变体调用细化。VariantTransformer在低覆盖率测序数据的200万个变体（包括SNPs和shortInDels）上进行了训练，准确率达到了89.26%，ROC AUC为0.88。比较分析表明，VariantTransformer 在功能、变异类型覆盖率、训练规模和输入数据类型方面都具有优势。

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arXiv - QuanBio - Genomics

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