Creative BioMart to Present at
                        BIO-Europe Spring Creative BioMart to Present at AACR Annual Meeting|Apr. 5-10, 2024|Booth #2953

Recombinant Human Adrenergic, Beta, Receptor Kinase 2, GST-tagged

Cat.No. : ADRBK2-1179H
Product Overview : Recombinant humanADRBK2 is a serine/threonine kinase that is thought to act as a regulator ofreceptor function.
  • Specification
  • Gene Information
  • Related Products
Cat. No. : ADRBK2-1179H
Description : ADRBK2(beta-ARK-2) also known as G-protein-coupled receptor kinase 3 (GRK3) is anenzyme that in humans is encoded by the ADRBK2 gene. The ADRBK2 specifically phosphorylates the agonist-occupiedform of the beta-adrenergic and related G protein-coupled receptors.
Source : Insect cells
Species : Human
Form : Liquid in 50 mMTris-HCl, pH 7.5 + 150 mM NaCl + 0.5 mM EDTA + 0.02%. Triton X-100 + 2 mM DTT+ 50% glycerol.
Molecular Weight : 107.2 kDa
Concentration : 0.44 mg/ml
Purity : > 90% asdetermined by SDS-PAGE analysis.
Storage : Stable for 6 monthsin working aliquots at -80°C. Avoid repeated freeze-thaw cycles.
OfficialSymbol : ADRBK2
Gene Name : ADRBK2 adrenergic, beta, receptorkinase 2 [ Homo sapiens ]
Synonyms : ADRBK2; adrenergic,beta, receptor kinase 2; GRK3; BARK2; beta-adrenergic receptor kinase 2;beta-ARK-2; OTTHUMP00000196857; G-protein-coupled receptor kinase 3;Beta-ARK-2; EC 2.7.11; EC 2.7.11.15
Gene ID : 157
mRNA Refseq : NM_005160
Protein Refseq : NP_005151
MIM : 109636
UniProt ID : P35626
Chromosome Location : 22q11; 22q12.1
Pathway : Chemokine signalingpathway; Endocytosis; Glutamatergic synapse; IL-4 signaling Pathway;Olfactory transduction; Thromboxane A2 receptor signaling
Function : ATP binding;G-protein coupled receptor kinase activity; beta-adrenergic receptor kinaseactivity; nucleotide binding; protein kinase activity; signal transduceractivity; transferase activity, transferring phosphorus-containing groups

For Research Use Only. Not intended for any clinical use. No products from Creative BioMart may be resold, modified for resale or used to manufacture commercial products without prior written approval from Creative BioMart.

Inquiry

  • Q&As
  • Reviews

Q&As (13)

Ask a question
How is ADRBK2 involved in regulating dopamine signaling in the brain? 04/22/2023

ADRBK2 plays a critical role in regulating dopamine signaling in the brain by phosphorylating and desensitizing dopamine receptors. Specifically, ADRBK2 can phosphorylate the dopamine D1 and D2 receptors, leading to their internalization and desensitization. Moreover, ADRBK2 can form protein complexes with other signaling proteins, such as DARPP-32, that regulate the activity of dopamine receptors and downstream signaling pathways. Dysfunction in ADRBK2-mediated dopamine signaling has been implicated in the pathogenesis of several brain disorders, such as schizophrenia and Parkinson's disease.

How does ADRBK2 affect dopamine signaling in the brain? 04/22/2023

ADRBK2 plays an important role in modulating dopamine signaling in the brain by phosphorylating and desensitizing dopamine receptors. Dopamine receptors are a type of G protein-coupled receptor (GPCR) that are activated by the neurotransmitter dopamine and are involved in a variety of brain functions, including motivation, reward, and motor control. ADRBK2 phosphorylates and desensitizes dopamine receptors by binding to a region of the receptors known as the cytoplasmic tail, which causes the receptors to be internalized and recycled, leading to reduced dopamine signaling. ADRBK2 also regulates the function of other proteins involved in dopamine signaling, including protein kinases and phosphatases, which can further modulate dopamine receptor signaling. Dysregulated dopamine signaling has been implicated in a number of brain disorders, including Parkinson's disease, schizophrenia, and addiction, and targeting ADRBK2 may be a viable strategy for modulating dopamine signaling in these conditions.

What are the implications of ADRBK2 dysfunction? 01/06/2023

Dysregulation of ADRBK2 activity has been implicated in a number of human diseases, including cardiovascular diseases, diabetes, and certain types of cancer. In cardiovascular diseases such as heart failure, ADRBK2 expression and activity are increased, which can lead to impaired beta-adrenergic signaling and negative effects on cardiac function. In diabetes, ADRBK2 activity may contribute to insulin resistance and impaired glucose uptake. In cancer, ADRBK2 has been shown to promote cancer cell proliferation, survival, and metastasis, making it a potential target for cancer therapy.

Can ADRBK2 inhibitors have potential side effects? 12/23/2022

Yes, like all drugs, ADRBK2 inhibitors have the potential to cause side effects in patients. The most common side effects of ADRBK2 inhibitors are likely to be related to their effects on beta-adrenergic signaling, such as changes in heart rate, blood pressure, and glucose levels. However, the specific side effects of ADRBK2 inhibitors will depend on the individual drug and their target disease, and will need to be carefully evaluated in clinical trials.

Are there any ADRBK2 inhibitors currently in development for clinical use? 11/03/2022

Yes, several ADRBK2 inhibitors are currently in development for potential use in the treatment of cardiovascular diseases, diabetes, and cancer. These inhibitors work by blocking the activity of ADRBK2, which can lead to improved beta-adrenergic signaling and reduced negative effects on physiological function. However, these inhibitors are still in the early stages of preclinical and clinical development, and more research is needed to determine their safety and efficacy in human patients.

How are ADRBK2 inhibitors developed and how do they work? 06/06/2022

ADRBK2 inhibitors are typically developed through a process of rational drug design, in which researchers use structural information about the ADRBK2 protein to identify small molecules that bind specifically to the protein and inhibit its function. ADRBK2 inhibitors can also be discovered through high-throughput screening of large libraries of compounds. Once identified, ADRBK2 inhibitors work by blocking the activity of the ADRBK2 protein, which can reduce the activation of downstream signaling pathways and improve disease outcomes, such as in heart failure or Parkinson's disease.

Can ADRBK2 inhibitors have any side effects on the body? 04/04/2022

ADRBK2 inhibitors can have potential side effects on the body, as they can affect the normal function of the ADRBK2 protein. Some of the common side effects associated with ADRBK2 inhibitors include nausea, diarrhea, vomiting, fatigue, headache, and dizziness. In addition, ADRBK2 inhibitors can also affect blood pressure and heart rate, and can cause arrhythmia in certain individuals. It is important for patients to discuss the potential risks and benefits of ADRBK2 inhibitors with their healthcare provider before starting treatment.

How does ADRBK2 contribute to the development of cancer? 05/01/2021

ADRBK2 has been shown to play a multifunctional role in the development and progression of cancer. It can promote cancer cell proliferation, survival, and invasion by activating signaling pathways such as ERK, AKT, and Notch. ADRBK2 can also regulate cancer-associated inflammation and angiogenesis by modulating cytokine production and proteinase expression. Moreover, ADRBK2 can promote tumor immune evasion by inhibiting the function of immune cells. Therefore, ADRBK2 inhibitors have potential as an anticancer therapy by targeting multiple aspects of the cancer process.

How can ADRBK2 inhibitors be used in cancer therapy? 06/20/2020

ADRBK2 inhibitors have been shown to have potential as cancer therapeutics, particularly in the treatment of solid tumors that express high levels of ADRBK2. By blocking ADRBK2 activity, these inhibitors can reduce cancer cell proliferation, induce apoptosis, and inhibit tumor angiogenesis and metastasis. In addition, ADRBK2 inhibitors can enhance the efficacy of chemotherapy and radiation therapy by reducing tumor cell resistance to these treatments. However, more research is needed to determine the optimal dosing and combination strategies for ADRBK2 inhibitors in cancer treatment.

Are there any ongoing clinical trials investigating ADRBK2 inhibitors? 10/30/2018

Yes, there are several ongoing clinical trials investigating the safety and efficacy of ADRBK2 inhibitors in the treatment of various diseases. For example, one clinical trial is testing the ADRBK2 inhibitor ARRB1/2-IN-1 in patients with advanced solid tumors, while another trial is testing the ADRBK2 inhibitor BAY-1170823 in patients with heart failure. These trials will provide important insights into the potential of ADRBK2 inhibitors as therapeutics in human patients.

Are there any genetic mutations that affect ADRBK2 expression or activity? 11/19/2017

Yes, several genetic mutations have been identified that affect ADRBK2 expression or activity and are associated with human disease. For example, mutations in the ADRBK2 gene have been linked to familial benign hyperaldosteronism type 2, a rare inherited disease characterized by elevated aldosterone levels and hypertension. Other mutations in ADRBK2 have been implicated in the development of certain types of cancer, such as glioblastoma and breast cancer.

What are some potential side effects of ADRBK2 inhibitors? 11/10/2017

ADRBK2 inhibitors have the potential to cause a variety of side effects, particularly in the cardiovascular and central nervous systems. In the cardiovascular system, ADRBK2 inhibitors may cause hypotension (low blood pressure), bradycardia (slow heart rate), and arrhythmias (irregular heartbeats). In the central nervous system, ADRBK2 inhibitors may cause sedation, dizziness, and impaired cognitive function. ADRBK2 inhibitors may also have effects on other organs and systems, such as the immune system and the gastrointestinal tract. However, the specific side effects of ADRBK2 inhibitors depend on the specific inhibitor and its mechanism of action, as well as individual factors such as age, sex, and health status. Clinical trials of ADRBK2 inhibitors are necessary to fully understand their safety and side effect profiles.

What are some of the potential therapeutic applications of ADRBK2 inhibitors? 09/06/2017

ADRBK2 inhibitors have potential therapeutic applications in a variety of diseases, particularly those involving the cardiovascular and central nervous systems. In the cardiovascular system, ADRBK2 inhibitors have shown promise in the treatment of heart failure by reducing cardiac remodeling, improving cardiac function, and increasing survival. In the central nervous system, ADRBK2 inhibitors have potential as a treatment for disorders such as Parkinson's disease and schizophrenia by modulating dopamine signaling and improving cognitive and motor function. Other potential therapeutic applications of ADRBK2 inhibitors include cancer treatment, inflammation, and immune-related disorders. However, more research is needed to determine the safety, efficacy, and optimal dosing of ADRBK2 inhibitors in these various applications.

Customer Reviews (4)

Write a review
Reviews
05/11/2022

    the manufacturer has also been very proactive in providing valuable insights and suggestions on how to optimize my experimental design for better results.

    05/16/2019

      Thanks to their expertise and guidance, I am confident that any problems that may arise will be quickly and efficiently resolved.

      03/24/2019

        the technical support provided by the manufacturer has been outstanding.

        10/31/2017

          The team has been exceedingly helpful in addressing all of my concerns and answering my questions to ensure that I have everything I need to achieve the desired outcomes.

          Ask a Question for All ADRBK2 Products

          Required fields are marked with *

          My Review for All ADRBK2 Products

          Required fields are marked with *

          0

          Inquiry Basket

          cartIcon
          logo

          FOLLOW US

          Terms and Conditions        Privacy Policy

          Copyright © 2024 Creative BioMart. All Rights Reserved.

          Contact Us

          • /

          Stay Updated on the Latest Bioscience Trends