R&D Systems

R&D Systems develops and manufactures high-quality proteins and serves as a world leader in immunoassays. R&D Systems also produces quality antibodies, antibody arrays, stem cell and cell culture products, and cell selection and detection products, serving the life science and diagnostics industry.

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tetrodotoxin was used for electrophysiological study, in order to demonstrate the role of astrocyte-secreted protein hevin in thalamocortical synaptic connectivity in the mouse cortex
Anti-SPARCL1 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-hevin antibody was used for immunoassay, in order to demonstrate the role of astrocyte-secreted protein hevin in thalamocortical synaptic connectivity in the mouse cortex
Dkk-1 was used, in order to study the molecular mechanism by which ectodysplasin regulatory changes alters expression of stickleback armor plate.
Wnt-3a beads was used, in order to study the molecular mechanism by which ectodysplasin regulatory changes alters expression of stickleback armor plate.
goat IgG antibody was used for immunoblot analysis, in order to investigate the effect of inhibition of mutant EGFR in lung cancer cell on SOX2-FOXO6-dependent survival pathways.
USP8 was used for In vitro deubiquitination assay, in order to study the mechanism by which Cry1/2 protect genomic integrity.
Hausp was used for In vitro deubiquitination assay, in order to study the mechanism by which Cry1/2 protect genomic integrity.
cytochalasin D was used in order to investigate the mechanism by which G-actin tunes the integrated stress response
TTX was used to confirm acquired signals exclusively reflected Na+-dependent action potentials in order to demonstrate whether color may affect the mammalian circadian clock.
NMDA was used to confirm maintained cell responsiveness in order to demonstrate whether color may affect the mammalian circadian clock.

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