Description
AMPA receptors are ionotropic glutamate receptors that mediate excitatory synaptic transmission.{46957,46955} They are tetrameric protein complexes expressed throughout the central nervous system in both neurons and glia that are assembled from combinations of GluR1, GluR2, GluR3, and GluR4, also known as GluR-A-D, subunits, each of which has extracellular N-terminal and ligand binding domains, a channel domain consisting of three membrane-spanning helices and a channel pore loop, and an intracellular C-terminus.{46955,46956,46958,46959} The GluR1 subunit, which is encoded by GRIA1 in humans, is primarily expressed in the forebrain and hippocampus. Mice lacking the GluR1 subunit exhibit normal spatial reference memory but have deficits in spatial working memory.{46957} They also exhibit increased and decreased duration of nocifensive behaviors in phases I and II, respectively, of the formalin test, as well as increased duration of nocifensive behaviors in response to intraplantar injection of capsaicin (Item No. 92350), compared with wild-type mice.{55099} SNPs in GRIA1 have been found in patients with bipolar disorder with psychotic features.{46958} Elevated levels of GRIA1 mRNA have been found in postmortem dorsolateral prefrontal cortex from patients with schizophrenia.{55100} Cayman’s GluR1 Monoclonal Antibody can be used for Western blot (WB) applications. The antibody recognizes GluR1 at approximately 105 kDa from mouse and rat samples.
Synonyms: AMPA 1|GluA1|Glutamate Receptor 1|GRIA1
Immunogen: Peptide corresponding to amino acid residues from the N-terminal region of rat GluR1
Formulation: 100 µl of protein G-purified mouse monoclonal antibody
Isotype: IgG2a
Applications: WB
Origin:
Stability: 365 days
Application|Western Blot||Product Type|Antibodies|Monoclonal Antibodies||Research Area|Neuroscience|Behavioral Neuroscience|Bipolar Disorder||Research Area|Neuroscience|Behavioral Neuroscience|Learning & Memory||Research Area|Neuroscience|Behavioral Neuroscience|Schizophrenia & Psychosis||Research Area|Neuroscience|Pain Research
