Whole Genome Transformer for Gene Interaction Effects in Microbiome Habitat Specificity

Authors

  • Zhufeng Li Technische Universität München Helmholtz Munich Munich Center for Machine Learning
  • Sandeep Suresh Cranganore Forschungszentrum Juelich GmbH Technical University of Vienna
  • Nicholas Youngblut Max-Planck Institute
  • Niki Kilbertus Technische Universität München Helmholtz Munich Munich Center for Machine Learning

DOI:

https://doi.org/10.1609/aaai.v39i1.32025

Abstract

Leveraging the vast genetic diversity within microbiomes offers unparalleled insights into complex phenotypes, yet the task of accurately predicting and understanding such traits from genomic data remains challenging. We propose a framework taking advantage of existing large models for gene vectorization to predict habitat specificity from entire microbial genome sequences. Based on our model, we develop attribution techniques to elucidate gene interaction effects that drive microbial adaptation to diverse environments. We train and validate our approach on a large dataset of high quality microbiome genomes from different habitats. We not only demonstrate solid predictive performance, but also how sequence-level information of entire genomes allows us to identify gene associations underlying complex phenotypes. Our attribution recovers known important interaction networks and proposes new candidates for experimental follow up.
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Published

2025-04-11

How to Cite

Li, Z., Cranganore, S. S., Youngblut, N., & Kilbertus, N. (2025). Whole Genome Transformer for Gene Interaction Effects in Microbiome Habitat Specificity. Proceedings of the AAAI Conference on Artificial Intelligence, 39(1), 460–469. https://doi.org/10.1609/aaai.v39i1.32025

Issue

Vol. 39 No. 1: AAAI-25 Technical Tracks 1

Section

AAAI Technical Track on Application Domains