Towards multimodal foundation models in molecular cell biology by Haotian Cui & Alejandro Tejada-Lapuerta & Maria Brbić & Julio Saez-Rodriguez & Simona Cristea & Hani Goodarzi & Mohammad Lotfollahi & Fabian J. Theis & Bo Wang ISBN 101038/S4158602508710Y instant download

Towards multimodal foundation models in molecular cell biology by Haotian Cui & Alejandro Tejada-Lapuerta & Maria Brbić & Julio Saez-Rodriguez & Simona Cristea & Hani Goodarzi & Mohammad Lotfollahi & Fabian J. Theis & Bo Wang ISBN 101038/S4158602508710Y instant download

The rapid advent of high-throughput omics technologies has created an exponential Check for updatesgrowth in biological data, often outpacing our ability to derive molecular insights. Large-language models have shown a way out of this data deluge in natural language processing by integrating massive datasets into a joint model with manifold downstream use cases. Here we envision developing multimodal foundation models, pretrained on diverse omics datasets, including genomics, transcriptomics, epigenomics, proteomics, metabolomics and spatial profling. These models are expected to exhibit unprecedented potential for characterizing the molecular states of cells across a broad continuum, thereby facilitating the creation of holistic maps of cells, genes and tissues. Context-specifc transfer learning of the foundation models can empower diverse applications from novel cell-type recognition, biomarker discovery and gene regulation inference, to in silico perturbations. This new paradigm could launch an era of artifcial intelligence-empowered analyses, one that promises to unravel the intricate complexities of molecular cell biology, to support experimental design and, more broadly, to profoundly extend our understanding of life sciences.