D4DR Inhibitors
Santa Cruz Biotechnology now offers a broad range of D4DR Inhibitors. D4DR proteins are members of the G protein coupled receptor family which are distinguished by their slow transmitting response to ligand binding. Dopamine receptors are divided into two classes, D1 (D1DR and D5DR) and D2 (D2DR, D3DR and D4DR), which differ in their functional characteristics, D1 receptors stimulate adenylyl cyclase while D2 receptors inhibit adenylyl cyclase activity. D4DR Inhibitors offered by Santa Cruz inhibit D4DR and, in some cases, other G protein coupled receptor and dopamine receptor related proteins. View detailed D4DR Inhibitor specifications, including D4DR Inhibitor CAS number, molecular weight, molecular formula and chemical structure, by clicking on the product name.
Items 1 to 10 of 19 total
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Clozapine | 5786-21-0 | sc-200402 sc-200402A | 50 mg 500 mg | $68.00 $357.00 | 11 | |
Clozapine (CAS 5786-21-0) is a chemical compound that functions as an inhibitor of D4 dopamine receptor (D4DR) signaling. It exerts its specific action on D4DR, a subtype of dopamine receptors in the brain, modulating its activity and neurotransmission. Clozapine's interaction with D4DR is a subject of research in understanding dopamine-related neural circuits and their potential roles in brain function and behavior. | ||||||
Thioridazine Hydrochloride | 130-61-0 | sc-201149A sc-201149 sc-201149B sc-201149C sc-201149D | 5 mg 1 g 5 g 25 g 100 g | $20.00 $48.00 $102.00 $408.00 $1224.00 | ||
Thioridazine hydrochloride (CAS 130-61-0) is a chemical compound that acts as an inhibitor of D4 dopamine receptor (D4DR) signaling. By targeting D4DR, a subtype of dopamine receptors in the brain, thioridazine hydrochloride modulates its activity and neurotransmission. Its specific interaction with D4DR is a subject of research in understanding the role of dopamine-related neural circuits in brain function and behavior. | ||||||
Clozapine-d8 | 1185053-50-2 | sc-217944 sc-217944A | 1 mg 10 mg | $306.00 $2050.00 | ||
Clozapine-d8 (CAS 1185053-50-2) is a deuterium-labeled form of clozapine. It functions as an inhibitor of D4 dopamine receptor (D4DR) signaling, similar to the unlabeled compound. By targeting D4DR, a subtype of dopamine receptors in the brain, clozapine-d8 modulates its activity and neurotransmission. Its specific interaction with D4DR is of interest in research to understand the role of dopamine-related neural circuits in brain function and behavior. | ||||||
Sonepiprazole | 170858-33-0 | sc-364623 sc-364623A | 5 mg 25 mg | $95.00 $384.00 | ||
Sonepiprazole (CAS 170858-33-0) is a chemical compound that acts as an inhibitor of D4 dopamine receptor (D4DR) signaling. By targeting D4DR, a subtype of dopamine receptors in the brain, sonepiprazole modulates its activity and neurotransmission. Its specific interaction with D4DR is of interest in research to understand the role of dopamine-related neural circuits in brain function and behavior. | ||||||
Haloperidol hydrochloride | 1511-16-6 | sc-203593 | 100 mg | $71.00 | 1 | |
Haloperidol hydrochloride (CAS 1511-16-6) is a chemical compound that functions as an inhibitor of D4 dopamine receptor (D4DR) signaling. By targeting D4DR, a subtype of dopamine receptors in the brain, haloperidol hydrochloride modulates its activity and neurotransmission. Its specific interaction with D4DR is relevant for research aimed at understanding the role of dopamine-related neural circuits in brain function and behavior. | ||||||
Spiperone hydrochloride | 2022-29-9 | sc-204293 | 50 mg | $173.00 | ||
Spiperone hydrochloride (CAS 2022-29-9) is a chemical compound that acts as an inhibitor of D4 dopamine receptor (D4DR) signaling. By targeting D4DR, a subtype of dopamine receptors in the brain, spiperone hydrochloride modulates its activity and neurotransmission. Its specific interaction with D4DR is of interest in research to understand the role of dopamine-related neural circuits in brain function and behavior. | ||||||
Loxapine, Succinate | 27833-64-3 | sc-211754 | 500 mg | $189.00 | ||
Loxapine, Succinate (CAS 27833-64-3) is a chemical compound that functions as an inhibitor of D4 dopamine receptor (D4DR) signaling. By targeting D4DR, a subtype of dopamine receptors in the brain, loxapine, succinate modulates its activity and neurotransmission. Its specific interaction with D4DR is relevant in research to understand the role of dopamine-related neural circuits in brain function and behavior. | ||||||
Fananserin | 127625-29-0 | sc-203951 sc-203951A | 10 mg 50 mg | $155.00 $620.00 | ||
Fananserin (CAS 127625-29-0) is a chemical compound that acts as an inhibitor of D4 dopamine receptor (D4DR) signaling. By targeting D4DR, a subtype of dopamine receptors in the brain, fananserin modulates its activity and neurotransmission. Its specific interaction with D4DR is of interest in research to understand the role of dopamine-related neural circuits in brain function and behavior. | ||||||
L-741,626 | 81226-60-0 | sc-252936 | 10 mg | $114.00 | 1 | |
A selective D4DR antagonist that has been studied in animal models to explore the role of D4DR in dopamine-related behaviors. | ||||||
Asenapine maleate | 65576-45-6 | sc-361110 sc-361110A | 10 mg 50 mg | $145.00 $615.00 | ||
Asenapine maleate (CAS 65576-45-6) is a chemical compound that functions as an inhibitor of D4 dopamine receptor (D4DR) signaling. By targeting D4DR, a subtype of dopamine receptors in the brain, asenapine maleate modulates its activity and neurotransmission. Its specific interaction with D4DR is of interest in research to understand the role of dopamine-related neural circuits in brain function and behavior. | ||||||