Beyond Conditional Computation: Retrieval-Augmented Genomic Foundation Models with Gengram
This addresses performance and interpretability bottlenecks in genomic AI, offering a scalable improvement for researchers in functional genomics.
The paper tackles the inefficiency of genomic foundation models by proposing Gengram, a conditional memory module that uses explicit lookup for multi-base motifs, achieving up to 14% gains in functional genomics tasks.
Current genomic foundation models (GFMs) rely on extensive neural computation to implicitly approximate conserved biological motifs from single-nucleotide inputs. We propose Gengram, a conditional memory module that introduces an explicit and highly efficient lookup primitive for multi-base motifs via a genomic-specific hashing scheme, establishing genomic "syntax". Integrated into the backbone of state-of-the-art GFMs, Gengram achieves substantial gains (up to 14%) across several functional genomics tasks. The module demonstrates robust architectural generalization, while further inspection of Gengram's latent space reveals the emergence of meaningful representations that align closely with fundamental biological knowledge. By establishing structured motif memory as a modeling primitive, Gengram simultaneously boosts empirical performance and mechanistic interpretability, providing a scalable and biology-aligned pathway for the next generation of GFMs. The code is available at https://github.com/zhejianglab/Genos, and the model checkpoint is available at https://huggingface.co/ZhejiangLab/Gengram.