2. Signaling Pathways
  3. GPCR/G Protein
    Neuronal Signaling
  4. Adrenergic Receptor

Adrenergic Receptor

Beta Receptor

Adrenergic Receptor

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Adrenergic receptors are a class of G protein-coupled receptors that are targets of the catecholamines, especially norepinephrine and epinephrine. Many cells possess these receptors, and the binding of a catecholamine to the receptor will generally stimulate the sympathetic nervous system. The sympathetic nervous system is responsible for the fight-or-flight response, which includes widening the pupils of the eye, mobilizing energy, and diverting blood flow from non-essential organs to skeletal muscle. There are two main groups of adrenergic receptors, α and β, with several subtypes. α receptors have the subtypes α1 and α2. β receptors have the subtypes β1, β2 and β3. All three are linked to Gs proteins, which in turn are linked to adenylate cyclase. Agonist binding thus causes a rise in the intracellular concentration of the second messenger cAMP. Downstream effectors of cAMP include cAMP-dependent protein kinase (PKA), which mediates some of the intracellular events following hormone binding.

Adrenergic Receptor Isoform Specific Products:

Adrenergic Receptor Isoform Comparison
Cat. No. Product Name Effect Purity Chemical Structure
  • HY-A0077
    Perphenazine
    		99.95%
    Perphenazine is an orally active dopamine receptor and histamine-1 receptor antagonist, with Ki values of 0.56 nM (D2), 0.43 nM (D3), 6 nM (5-HT2A), respectively. Perphenazine also binds to Alpha-1A adrenergic receptor. Perphenazine inhibits cancer cell proliferation, and induces apoptosis. Perphenazine can be used in the research of mental disease, cancer, inflammation.
    Perphenazine
  • HY-103210
    DSP-4 hydrochloride
    		98.0%
    DSP-4 hydrochloride is a highly and selective adrenergic neurotoxin. DSP-4 hydrochloride can cross the blood brain barrier. DSP-4 hydrochloride can be used for the temporary selective degradation of the central and peripheral noradrenergic neurons.
    DSP-4 hydrochloride
  • HY-B0659A
    Brimonidine tartrate
    		Agonist 99.68%
    Brimonidine tartrate (UK 14304 tartrate) is a full α2-adrenergic receptor (α2-AR) agonist.
    Brimonidine tartrate
  • HY-B0528A
    Octopamine hydrochloride
    		Agonist 99.90%
    Octopamine ((±)-p-Octopamine) hydrochloride, a biogenic monoamine structurally related to noradrenaline, acts as a neurohormone, a neuromodulator and a neurotransmitter in invertebrates. Octopamine hydrochloride can stimulate alpha2-adrenoceptors (ARs) in Chinese hamster ovary cells transfected with human alpha2-ARs. Octopamine hydrochloride increased glycogenolysis, glycolysis, oxygen uptake, gluconeogenesis and the portal perfusion pressure.
    Octopamine hydrochloride
  • HY-B0371F
    Terazosin hydrochloride
    		Antagonist 99.90%
    Terazosin hydrochloride is a quinazoline derivative and a competitive and orally active α1-adrenoceptor antagonist. Terazosin hydrochloride works by relaxing blood vessels and the opening of the bladder. Terazosin hydrochloride has the potential for benign prostatic hyperplasia (BPH) and high blood pressure treatment.
    Terazosin hydrochloride
  • HY-B1614
    Clenbuterol hydrochloride
    		Agonist 99.98%
    Clenbuterol (NAB-365) hydrochloride, a selective β2-adrenergic agonist, enhances skeletal muscle strength and hypertrophy. Clenbuterol hydrochloride induces growth factor mRNA, activates astrocytes, and protects rat brain tissue against ischemic damage.
    Clenbuterol hydrochloride
  • HY-A0019
    Paliperidone
    		Antagonist 99.43%
    Paliperidone (9-Hydroxyrisperidone), the major active metabolite of Risperidone, is a dopamine D2 antagonist and 5-HT2A antagonist. Paliperidone is also active as an antagonist at α1 and α2 adrenergic receptors and H1-histaminergic receptors. Paliperidone, a antipsychotic agent, shows efficacy against schizophrenia.
    Paliperidone
  • HY-17497A
    Acebutolol hydrochloride
    		Antagonist 99.63%
    Acebutolol hydrochloride is an orally active β1 adrenergic receptor (β1AR) antagonist. Acebutolol hydrochloride is used in the treatment of hypertension, angina pectoris and cardiac arrhythmias.
    Acebutolol hydrochloride
  • HY-17385
    Atomoxetine hydrochloride
    		99.91%
    Atomoxetine (Tomoxetine) hydrochloride is a selective noradrenaline reuptake inhibitor with Ki values of 5 nM, 77 nM and 1451 nM for norepinephrine (NE), serotonin (5-HT) and dopamine (DA) transporters, respectively. Atomoxetine hydrochloride is a potent Na+ channels (VGSCs) blocker. Atomoxetine hydrochloride can be used for attention-deficit hyperactivity disorder (ADHD) research.
    Atomoxetine hydrochloride
  • HY-139643
    CXCR7 antagonist-1
    		Antagonist 99.85%
    CXCR7 antagonist-1 is a CXCR7 antagonist that inhibits the binding of the SDF-1 chemokine (also known as the CXCL12 chemokine) or I-TAC (also known as CXCL11) to the chemokine receptor CXCR7. CXCR7 antagonist-1 is useful in preventing tumor cell proliferation, tumor formation, inflammatory diseases, and many other diseases.
    CXCR7 antagonist-1
  • HY-B0076
    Bisoprolol hemifumarate
    		Inhibitor 99.84%
    Bisoprolol hemifumarate is a potent, selective and orally active β1-adrenergic receptor blocker with little activity on β2-receptor. Bisoprolol hemifumarate has the potential for hypertension, coronary artery disease and stable ventricular dysfunction research.
    Bisoprolol hemifumarate
  • HY-17503A
    Metoprolol succinate
    		Antagonist 99.56%
    Metoprolol succinate is an orally active, selective β1-adrenoceptor antagonist. Metoprolol succinate shows anti-inflammation, antitumor and anti-angiogenic properties.
    Metoprolol succinate
  • HY-B0437
    Sotalol hydrochloride
    		Antagonist 99.93%
    Sotalol hydrochloride (MJ 1999) is an orally active, non-selective β-adrenergic receptor blocker. Sotalol hydrochloride is a potent antiarrhythmic agent that can be used for the research of pediatric arrhythmias. Sotalol hydrochloride blocks β-receptors, and potassium KCNH2 channels. Antiepileptic Agent.
    Sotalol hydrochloride
  • HY-B0352
    Mirtazapine
    		Antagonist 99.94%
    Mirtazapine (Org3770) is a potent and orally active noradrenergic and specific serotonergic antidepressant (NaSSA) agent. Mirtazapine is also a 5-HT2, 5-HT3, histamine H1 receptor and α2-adrenoceptor antagonist with pKi values of 8.05, 8.1, 9.3 and 6.95, respectively.
    Mirtazapine
  • HY-A0007
    Rotigotine Hydrochloride
    		Antagonist 99.45%
    Rotigotine Hydrochloride (N-0923 Hydrochloride) is a full agonist of dopamine receptor, a partial agonist of the 5-HT1A receptor, and an antagonist of the α2B-adrenergic receptor, with Ki of 0.71 nM, 4-15 nM, and 83 nM for the dopamine D3 receptor and D2, D5, D4 receptors, and dopamine D1 receptor.
    Rotigotine Hydrochloride
  • HY-B0566
    Guanabenz Acetate
    		Agonist 98.93%
    Guanabenz (Acetate) (BR-750) is an alpha-2 selective adrenergic agonist used as an antihypertensive agent.
    Guanabenz Acetate
  • HY-19334
    L755507
    		Agonist 98.89%
    L755507 is a potent, selective agonist of β3-AR with an IC50 of 35 nM. L755507 enhances the homology-directed repair (HDR)-mediated genome editing.
    L755507
  • HY-105124
    Bufuralol
    		Antagonist 99.25%
    Bufuralol (Ro 3-4787) is a potent non-selective, orally active β-adrenoreceptor antagonist with partial agonist activity. Bufuralol hydrochloride is a CYP2D6 probe substrate.
    Bufuralol
  • HY-B2233
    Phosphorylcholine chloride
    		Agonist 98.0%
    Phosphorylcholine chloride (Phosphocholine chloride) is the main phospholipid component in eukaryotic biofilms. Phosphorylcholine chloride exists in commensal or pathogenic bacteria associated with eukaryotes in prokaryotes. Phosphorylcholine chloride exhibits a surprising range of immunomodulatory properties.
    Phosphorylcholine chloride
  • HY-121251
    BI-167107
    		Agonist 99.61%
    BI-167107 is a high affinity, full agonist that binds to the β2 adrenergic receptor (β2AR) with a dissociation constant Kd of 84 pM.
    BI-167107
Cat. No. Product Name / Synonyms Application Reactivity
Adrenergic Receptor Isoform Comparison

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