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DART-Eval: A Comprehensive DNA Language Model Evaluation Benchmark on Regulatory DNA.

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Genomic DNA language models (DNALMs) show inconsistent performance on regulatory DNA tasks. New benchmarks reveal they do not significantly outperform baseline models, despite higher computational costs.

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Area of Science:

  • Genomics
  • Computational Biology
  • Bioinformatics

Background:

  • Self-supervised models have advanced NLP, vision, and protein analysis.
  • Genomic DNA language models (DNALMs) aim to represent DNA elements for genomic tasks.
  • Existing benchmarks lack focus on non-coding regulatory DNA elements.

Purpose of the Study:

  • Introduce DART-Eval, a benchmark suite for evaluating DNALMs on regulatory DNA.
  • Assess DNALM performance in zero-shot, probed, and fine-tuned settings.
  • Compare DNALMs against contemporary *ab initio* models.

Main Methods:

  • Developed DART-Eval, focusing on biologically relevant tasks.
  • Included sequence motif discovery, cell-type specific regulatory activity prediction, and counterfactual prediction.
  • Evaluated annotation-agnostic DNALMs against baseline models.

Main Results:

  • Current DNALMs show inconsistent performance on regulatory DNA tasks.
  • DNALMs did not consistently outperform baseline models.
  • DNALMs required significantly more computational resources than baselines.

Conclusions:

  • Annotation-agnostic DNALMs require further development for regulatory genomics.
  • Future DNALMs may benefit from improved modeling, data curation, and evaluation strategies.
  • DART-Eval provides a framework for advancing DNALM research.