Comprehensive profiling of migratory primordial germ cells reveals niche-specific differences in non-canonical Wnt and Nodal-Lefty signaling in anterior vs posterior migrants. Read more about Comprehensive profiling of migratory primordial germ cells reveals niche-specific differences in non-canonical Wnt and Nodal-Lefty signaling in anterior vs posterior migrants.
The Mac1 ADP-ribosylhydrolase is a therapeutic target for SARS-CoV-2. Read more about The Mac1 ADP-ribosylhydrolase is a therapeutic target for SARS-CoV-2.
Maintenance of neuronal TDP-43 expression requires axonal lysosome transport. Read more about Maintenance of neuronal TDP-43 expression requires axonal lysosome transport.
Maintenance of neuronal TDP-43 expression requires axonal lysosome transport. Read more about Maintenance of neuronal TDP-43 expression requires axonal lysosome transport.
Coupled equilibria of dimerization and lipid binding modulate SARS Cov 2 Orf9b interactions and interferon response. Read more about Coupled equilibria of dimerization and lipid binding modulate SARS Cov 2 Orf9b interactions and interferon response.
Coupled equilibria of dimerization and lipid binding modulate SARS Cov 2 Orf9b interactions and interferon response. Read more about Coupled equilibria of dimerization and lipid binding modulate SARS Cov 2 Orf9b interactions and interferon response.
C-terminal tagging, transmembrane domain hydrophobicity, and an ER retention motif influence the secretory trafficking of the inner nuclear membrane protein emerin. Read more about C-terminal tagging, transmembrane domain hydrophobicity, and an ER retention motif influence the secretory trafficking of the inner nuclear membrane protein emerin.
Layilin regulates Treg motility and suppressive capacity in skin. Read more about Layilin regulates Treg motility and suppressive capacity in skin.
Expanding automated multiconformer ligand modeling to macrocycles and fragments. Read more about Expanding automated multiconformer ligand modeling to macrocycles and fragments.
Flower/FLWR-1 regulates neuronal activity via the plasma membrane Ca2+ ATPase to promote recycling of synaptic vesicles. Read more about Flower/FLWR-1 regulates neuronal activity via the plasma membrane Ca2+ ATPase to promote recycling of synaptic vesicles.
