sample review
- Anti-VGLUT2 antibody was used for immunoassay, in order to demonstrate the role of astrocyte-secreted protein hevin in thalamocortical synaptic connectivity in the mouse cortex
- Anti-GFP antibody was used for immunoassay, in order to study the role of GTPase Rab26 in directing synaptic and secretory vesicles into the autophagy pathway.
- Anti-GDI antibody was used for immunoassay, in order to study the role of GTPase Rab26 in directing synaptic and secretory vesicles into the autophagy pathway.
- Anti-Rab3a antibody was used for immunoassay, in order to study the role of GTPase Rab26 in directing synaptic and secretory vesicles into the autophagy pathway.
- Anti-synaptobrevin antibody was used for immunoassay, in order to study the role of GTPase Rab26 in directing synaptic and secretory vesicles into the autophagy pathway.
- Anti-synaptotagmin antibody was used for immunoassay, in order to study the role of GTPase Rab26 in directing synaptic and secretory vesicles into the autophagy pathway.
- Anti-synaptophysin antibody was used for immunoassay, in order to study the role of GTPase Rab26 in directing synaptic and secretory vesicles into the autophagy pathway.
- Anti-CAPS-1 antibody was used for immunocytochemistry, in order to investigate the role of calcium-activator protein for secretion (CAPS) proteins in neuronal dense-core vesicle secretion at single vesicle resolution.
- Anti-VGLUT1 antibody was used for immunocytochemistry, in order to investigate the role of calcium-activator protein for secretion (CAPS) proteins in neuronal dense-core vesicle secretion at single vesicle resolution.
- Anti-chromogranin B antibody was used for immunocytochemistry, in order to investigate the role of calcium-activator protein for secretion (CAPS) proteins in neuronal dense-core vesicle secretion at single vesicle resolution.
- Anti-Munc13 antibody was used for immunocytochemistry, in order to investigate the role of calcium-activator protein for secretion (CAPS) proteins in neuronal dense-core vesicle secretion at single vesicle resolution.