|Product Overview:||Human DRD2 derived in Human HEK293T cell line.|
|Description:||This gene encodes the D2 subtype of the dopamine receptor. This G-protein coupled receptor inhibits adenylyl cyclase activity. A missense mutation in this gene causes myoclonus dystonia; other mutations have been associated with schizophrenia. Alternative splicing of this gene results in two transcript variants encoding different isoforms. A third variant has been described, but it has not been determined whether this form is normal or due to aberrant splicing.|
|Source:||Human HEK293T cell line|
|Tag :||C-terminal Myc/DDK|
|Form:||1 vial of 100 ug gene specific transient over-expression cell lysate in RIPA buffer
1 vial of 100 ?g empty vector transfected control cell lysate in RIPA buffer
1 vial of 250ul 2xSDS Sample Buffer (4% SDS, 125mM Tris-HCl pH6.8, 10% Glycerol, 0.002% Bromphenol blue, 100mM DTT)
|Molecular Mass:||47.2 kDa|
|Storage:||The lysate is shipped with dry ice. Upon receiving, store the sample at -20 centigrade. Lysate samples are stable for 12 months from date of receipt when stored at -20 centigrade. Avoid repeated freeze-thaw cycles.
Lysate samples can be diluted with 2xSDS Sample Buffer provided. After dilution, the protein sample should be aliquoted and stored at -20 centigrade for long term storage. Prior to SDS-PAGE fractionation, boil the lysate for 5 minutes.
|Gene Name:||DRD2 dopamine receptor D2 [ Homo sapiens ]|
|Synonyms:||DRD2; dopamine receptor D2; D(2) dopamine receptor; dopamine D2 receptor; dopamine receptor D2 isoform; seven transmembrane helix receptor; D2R; D2DR;|
|Pathway:||Amine ligand-binding receptors, organism-specific biosystem; Class A/1 (Rhodopsin-like receptors), organism-specific biosystem; Cocaine addiction, organism-specific biosystem; Cocaine addiction, conserved biosystem; Dopamine receptors, organism-specific biosystem; Dopaminergic synapse, organism-specific biosystem; Dopaminergic synapse, conserved biosystem;|
|Function:||G-protein coupled receptor activity; dopamine binding; dopamine receptor activity, coupled via Gi/Go; dopamine receptor activity, coupled via Gi/Go; drug binding; drug binding; ionotropic glutamate receptor binding; potassium channel regulator activity; protein binding; receptor activity; receptor binding; signal transducer activity;|