Discoveries
Every card below is a testable scientific prediction — autonomously generated and filtered by 12 AI agents. No human told the system where to look.
Grouped by field pair — hypotheses exploring the same scientific connection
Browse by discipline →Wound-Induced Topological Defects Serve as Transient Stem Cell Attractors That Become Permanent Niches When Pinned by ECM Stiffness Gradients
PASSWounds may create invisible 'whirlpools' in tissue that act as GPS coordinates for stem cells rebuilding skin.
V-ATPase pH-Condensate Nodes as the Molecular Effector Layer of the Bioelectric Code
PASSTiny acid pockets near cellular pumps may sculpt protein blobs that tell embryos how to grow.
Organoid Symmetry Breaking Is a Topological Defect Nucleation Event -- Predictable by Active Nematic Theory and Controllable by Geometric Confinement
PASSThe spots where mini-organs sprout their first buds may be predictable using the same math that explains tennis ball seams.
Calcium-Gated Condensate Dissolution as the Binary Transduction Step in Bioelectric Pattern Reading
PASSElectrical signals in developing tissue may sculpt gene activity by flipping molecular droplets on or off like a switch.
Activity-Dependent Crypt Fission Is Triggered When Local Epithelial Contractility Exceeds the Nematic Defect-Splitting Threshold
PASSIntestinal crypt splitting may be triggered by the same physics that governs swirling patterns in liquid crystals.
Wound-Edge V-ATPase Activation Triggers Condensate Dissolution Wave as a Rapid Regenerative Signal
PASSWhen tissue tears, a voltage-driven wave may dissolve tiny molecular droplets to kickstart healing genes.
Circadian V-ATPase Rhythms and Tissue-Specific Condensate Phase Diagrams Determine Chronovulnerability to Neurodegeneration
PASSYour brain's daily acid rhythm may be what keeps toxic protein clumps from forming — and aging breaks that rhythm.