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Benchmarking DNA foundation models for genomic and genetic tasks

Haonan Feng, Lang Wu, Bingxin Zhao, Chad D. Huff, Jianjun Zhang, Jia Wu, Lifeng Lin, Peng Wei, Chong Wu

2025Nature Communications21 citationsDOIOpen Access PDF

Abstract

The rapid evolution of DNA foundation models promises to revolutionize genomics, yet comprehensive evaluations are lacking. Here, we present a comprehensive, unbiased benchmark of five models (DNABERT-2, Nucleotide Transformer V2, HyenaDNA, Caduceus-Ph, and GROVER) across diverse genomic and genetic tasks including sequence classification, gene expression prediction, variant effect quantification, and topologically associating domain (TAD) region recognition, using zero-shot embeddings. Our analysis reveals that mean token embedding consistently and significantly improves sequence classification performance, outperforming other pooling strategies. Model performance varies among tasks and datasets; while general purpose DNA foundation models showed competitive performance in pathogenic variant identification, they were less effective in predicting gene expression and identifying putative causal QTLs compared to specialized models. Our findings offer a framework for model selection, highlighting the impact of architecture, pre-training data, and embedding strategies on performance in genomic and genetic tasks.

Topics & Concepts

BenchmarkingPoolingBenchmark (surveying)Computational biologyComputer scienceDNA sequencingEmbeddingGenomicsFoundation (evidence)Machine learningGeneArtificial intelligenceBiologyDomain (mathematical analysis)Sequence (biology)Genomic sequencingSecurity tokenTransformerGeneticsENCODEDNAData miningBioinformaticsEncoding (memory)Nucleic acid sequenceGenomics and Rare DiseasesGenetic Associations and EpidemiologyGene expression and cancer classification
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