Myeloid-mesenchymal crosstalk drives Arg1-dependent profibrotic metabolism via ornithine in lung fibrosis. Read more about Myeloid-mesenchymal crosstalk drives Arg1-dependent profibrotic metabolism via ornithine in lung fibrosis.
Tumor-initiating genetics and therapy drive divergent molecular evolution in IDH-mutant gliomas. Read more about Tumor-initiating genetics and therapy drive divergent molecular evolution in IDH-mutant gliomas.
Neutrophil TLR2 signaling promotes lipid accumulation and vascular plaque growth. Read more about Neutrophil TLR2 signaling promotes lipid accumulation and vascular plaque growth.
The Notch1 intracellular domain orchestrates mechanotransduction of fluid shear stress. Read more about The Notch1 intracellular domain orchestrates mechanotransduction of fluid shear stress.
Cell atlas of the developing human meninges reveals a dura origin of meningioma. Read more about Cell atlas of the developing human meninges reveals a dura origin of meningioma.
Cortical organoids reveal human-specific roles of METTL5 in neurodevelopment via regulation of CHCHD2. Read more about Cortical organoids reveal human-specific roles of METTL5 in neurodevelopment via regulation of CHCHD2.
Synthesis errors in oligonucleotides are propagated into the genome by homology-directed repair. Read more about Synthesis errors in oligonucleotides are propagated into the genome by homology-directed repair.
A Fibroblast State Choreographs an Epithelial YAP-dependent Regenerative Program Essential to (Pre)malignancy via ECM-mediated Mechanotransduction. Read more about A Fibroblast State Choreographs an Epithelial YAP-dependent Regenerative Program Essential to (Pre)malignancy via ECM-mediated Mechanotransduction.
Two parallel lineage-committed progenitors contribute to the developing brain. Read more about Two parallel lineage-committed progenitors contribute to the developing brain.
CLONEID: A Framework for Longitudinal Integration of Phenotypic and Genotypic Data to Monitor and Steer Subclonal Dynamics. Read more about CLONEID: A Framework for Longitudinal Integration of Phenotypic and Genotypic Data to Monitor and Steer Subclonal Dynamics.
