Recombinant Rat AK8 Protein Pre-coupled Magnetic Beads
Cat.No. : | AK8-242R-B |
Product Overview : | The Recombnant protein was conjugated to magnetic beads. This ready-to-use, pre-coupled magnetic beads are in uniform particle size and narrow size distribution with large surface area, which is conducive to convenient and fast capture target molecules with high specificity and achieve magnetic separation. This product can be equipped with automation equipment for high-throughput operations. |
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Source : | HEK293 |
Species : | Rat |
Form : | Solution |
Particle size : | ~2 μm |
Beads Surface : | Hydrophilic |
Capacity : | > 200 pmol rabbit IgG/ mg beads |
Applications : | Immunoassay, In vitro diagnostics, cell sorting, Immunoprecipitation/Co-precipitation, Protein/antibody separation and purification. |
Stability : | Stable for at least 6 months from the date of receipt of the product under proper storage and handling conditions. |
Storage : | 2-8℃. Do not to freeze thaw the Beads |
Concentration : | 10mg beads/mL |
Storage Buffer : | PBS buffer |
Gene Name : | Ak8 adenylate kinase 8 [ Rattus norvegicus ] |
Official Symbol : | AK8 |
Gene ID : | 311833 |
mRNA Refseq : | NM_001004266.1 |
Protein Refseq : | NP_001004266.1 |
UniProt ID : | Q68FP8 |
Products Types
◆ Recombinant Protein | ||
AK8-38C | Recombinant Cynomolgus Monkey AK8 Protein, His (Fc)-Avi-tagged | +Inquiry |
AK8-0225H | Recombinant Human AK8 Protein, GST-Tagged | +Inquiry |
AK8-242R | Recombinant Rat AK8 Protein, His (Fc)-Avi-tagged | +Inquiry |
AK8-424M | Recombinant Mouse AK8 Protein, His (Fc)-Avi-tagged | +Inquiry |
AK8-2817Z | Recombinant Zebrafish AK8 | +Inquiry |
◆ Lysates | ||
AK8-264HCL | Recombinant Human AK8 cell lysate | +Inquiry |
Related Gene
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.
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Q&As (23)
Ask a questionTargeting AK8 protein could have potential therapeutic implications, particularly in diseases related to nucleotide metabolism, energy regulation, and oxidative stress. Modulating AK8 activity or expression could offer opportunities for developing novel therapeutic strategies for metabolic disorders, neurodevelopmental diseases, or conditions associated with cellular energy dysregulation. However, since AK8 is not extensively studied as a therapeutic target, further research is needed to explore its therapeutic potential and develop effective interventions.
As of now, there are no specific therapeutic interventions targeting AK8 protein. However, further research on its functions and potential involvement in diseases may lead to the development of therapies that modulate its activity or expression.
AK8 protein has been shown to interact with other proteins involved in nucleotide metabolism and energy regulation. Some known interaction partners include AMP deaminase (AMPD), 5'-nucleotidases (NT5C), and creatine kinase (CK). These interactions suggest that AK8 protein may participate in complex metabolic networks.
The activity of AK8 protein can be regulated through various mechanisms. For instance, the levels of substrates and products (ATP, ADP, AMP) can affect its activity, as well as the availability of magnesium ions and pH conditions.
As of now, there are no known drugs or compounds that specifically target AK8 protein. Since AK8 is not extensively studied as a therapeutic target, there has been limited research focused on developing drugs or compounds that directly modulate AK8 activity. Further investigations are needed to identify potential small molecules or compounds that can selectively target AK8 and assess their therapeutic efficacy.
AK8 protein is primarily expressed in the skeletal muscle and heart, where it has been found to play a role in maintaining energy balance and muscle function. However, it can also be detected in other tissues, albeit at lower levels.
AK8 protein has not been extensively explored as a drug target. However, its involvement in nucleotide metabolism and potential role in diseases suggest that it could be an interesting target for drug development in the future. Further research is required to establish its viability as a therapeutic target.
Animal models such as mice have been used to study the role of AK8 protein in specific tissues or physiological processes. These models help researchers understand its functions and potential implications in various biological contexts.
The essentiality of AK8 protein for normal development and survival is not well-established. However, the expression of AK8 is widespread across different tissues and organs, suggesting a potential role in fundamental cellular processes. Further studies, including knockout or genetic manipulation experiments, are needed to determine the specific impact of AK8 protein on development and survival.
Currently, there is limited information on genetic variations or mutations in the AK8 gene directly linked to specific diseases. Further research is needed to determine if any alterations in the AK8 gene sequence or expression levels contribute to disease development or progression.
There is currently no evidence to suggest that AK8 protein can be used as a diagnostic marker for any diseases. AK8 has not been extensively studied in the context of diagnostics, and its potential as a biomarker for disease is not well-established. Further research is required to explore the diagnostic potential of AK8 protein and its associations with specific diseases.
Currently, there are no specific animal models available that solely focus on the study of AK8 protein. However, genetically modified animal models, such as knockout or transgenic models, can be potentially used to investigate the function and regulation of AK8. The use of these models would provide valuable insights into the physiological and pathological roles of AK8 protein in vivo.
There is limited information on genetic variations or mutations in the AK8 gene and their associations with diseases. However, a study has identified a rare missense variant in the AK8 gene in a patient with a neurodevelopmental disorder, suggesting a potential link between AK8 gene mutations and neurodevelopmental abnormalities. Further research is needed to fully understand the implications of AK8 gene variations in disease.
The regulation of AK8 protein expression and activity by external factors or signaling pathways has not been extensively studied. However, it is known that AK8 expression can be induced by certain stress conditions, such as oxidative stress or energy deprivation, suggesting potential regulation by cellular stress response pathways. Further investigations are needed to identify specific signaling pathways or external factors that modulate AK8 protein expression or activity.
Future research on AK8 protein may focus on understanding its involvement in specific diseases or physiological conditions. Investigating its interactions with other proteins and signaling pathways could provide insights into its regulatory mechanisms. Additionally, exploring its potential as a therapeutic target or biomarker in certain conditions may be pursued.
Currently, there is limited information on the involvement of AK8 protein in cancer. Some studies suggest its altered expression in certain cancer types, but the functional significance and underlying mechanisms remain unknown. Further research is needed to elucidate any potential links between AK8 and cancer development or progression.
The consequences of AK8 protein deficiency or dysregulation are not well-understood. However, perturbations in nucleotide metabolism and energy balance could potentially lead to cellular dysfunction and impact various physiological processes, including muscle function, cardiac health, and overall energy homeostasis.
The regulation of AK8 protein expression or activity during cellular processes such as cell cycle progression or differentiation is not well understood. However, some studies have reported differential expression of AK8 in certain cell types or during specific stages of development, suggesting potential regulation during cellular processes. The specific mechanisms or signaling pathways involved in the regulation of AK8 during these processes need to be elucidated through further research.
AK8 protein is primarily involved in nucleotide metabolism and energy balance. It plays a crucial role in the conversion of ATP to ADP and AMP, which are essential for cellular energy generation and nucleotide recycling. AK8 protein is also thought to influence cellular redox status and contribute to oxidative stress responses
Currently, there is limited evidence suggesting AK8 protein as a diagnostic or prognostic marker for any specific diseases. However, further research may reveal its potential as a biomarker in certain contexts, such as muscle disorders or metabolic diseases. This would require extensive clinical studies and validation.
The post-translational modifications of AK8 protein have not been extensively studied. However, it has been reported that phosphorylation of AK8 protein by protein kinase A (PKA) can modulate its enzymatic activity. Additional post-translational modifications could be speculated but require further investigation.
To the best of our knowledge, there are currently no ongoing clinical trials specifically targeting AK8 protein. As mentioned earlier, AK8 is not extensively studied as a therapeutic target, and the development of AK8-targeted therapies is still in its infancy. It is essential to monitor clinical trial databases and research publications for updates on any potential clinical trials involving AK8 in the future.
The non-enzymatic functions of AK8 protein have not been extensively investigated. However, some studies have suggested possible roles for AK8 in cellular processes beyond its enzymatic activity. For example, AK8 has been implicated in cellular stress responses, interactions with other proteins, and potential roles in transcriptional regulation. Further research is required to fully understand the non-enzymatic functions of AK8 protein.
Customer Reviews (4)
Write a reviewThe combination of the outstanding qualities of the AK8 protein and the manufacturer's exceptional technical support fuels my scientific endeavors with confidence and certainty.
Its exceptional purity, stability, and reliability make it an indispensable asset in unraveling the mysteries of my research projects.
The AK8 protein sets the benchmark for extraordinary quality, perfectly aligned with the demanding requirements of my experiments.
With the AK8 protein, I can confidently delve into profound scientific investigations, assured of obtaining accurate and reproducible results.
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