A large language foundational model for edible plant genomes

Javier Mendoza-Revilla | Evan Trop | Liam Gonzalez | Maša Roller | Hugo Dalla-Torre | Bernado de Almedia | Nicolas Lopez Carranza | Guillaume Richard | Marcin Skwark | Karim Beguir | Thomas Pierrot | Marie Lopez

Published

ABSTRACT

Significant progress has been made in the field of plant genomics, as demonstrated by the increased use of high-throughput methodologies that enable the characterization of multiple genome-wide molecular phenotypes. These findings have provided valuable insights into plant traits and their underlying genetic mechanisms, particularly in model plant species. Nonetheless, effectively leveraging them to make accurate predictions represents a critical step in crop genomic improvement. We present AgroNT, a foundational large language model trained on genomes from 48 plant species with a predominant focus on crop species. We show that AgroNT can obtain state-of-the-art predictions for regulatory annotations, promoter/terminator strength, tissue-specific gene expression, and prioritize functional variants. We conduct a large-scale in silico saturation mutagenesis analysis on cassava to evaluate the regulatory impact of over 10 million mutations and provide their predicted effects as a resource for variant characterization. Finally, we propose the use of the diverse datasets compiled here as the Plants Genomic Benchmark (PGB), providing a comprehensive benchmark for deep learning-based methods in plant genomic research. The pretrained AgroNT model is publicly available on https://huggingface.co/InstaDeepAI/agro-nucleotide-transformer-1b for future research purposes.