Researchers have developed PACE, a new framework for single-cell trajectory inference that addresses the inherent ill-posed nature of reconstructing cellular dynamics from time-course snapshots. PACE utilizes a geometry-aware approach by constructing an anisotropic Riemannian metric to better align cells across different experimental times, accounting for asynchronous development. The method refines cross-time couplings and fits neural bridges between snapshots, ultimately distilling these dynamics into a continuous-time velocity field. Evaluations on multiple datasets demonstrate PACE's superior reconstruction performance and improved RNA-velocity alignment compared to existing methods. AI
影响 Introduces a novel computational method that improves the accuracy of biological trajectory inference, potentially accelerating research in developmental biology and disease.
排序理由 Academic paper detailing a new computational method for biological data analysis. [lever_c_demoted from research: ic=1 ai=1.0]
- neural bridges
- optimal transport
- PACE
- Riemannian metric
- RNA-velocity
- single-cell trajectory inference
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