Recombinant Full Length Milnesium Tardigradum Aquaporin-8(Aqp8) Protein, Tag-Free
Cat.No. : | RFL17906MF |
Product Overview : | Recombinant Full Length Milnesium tardigradum Aquaporin-8(AQP8) Protein (G5CTG5) (1-342aa) was expressed in E. coli. |
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Source : | E.coli expression system |
Species : | Milnesium tardigradum (Water bear) (Tardigrade) |
Tag : | Tag-Free |
Form : | Lyophilized powder |
Protein Length : | Full Length (1-342) |
AA Sequence : | MSTAESRNHYKEVPTIEHYSEAIGI TNRKKMDWRGWLRKSTLVRSQLIRG CMAEFLAVFVLMVFIEGSAATAIFT NRRQDILFGSISSGLGVAMAVYVAG GVSGAFLNPAVALAFAVLGKLSWKN CIFYMISQYLAAFVASCTMFAYLYE ALNNFDGGERQMFGPNGTAHIWSTY PQPFLSPHTAFADQVFCTAILLIVV LAMCDSKNWKPHNGFLPIAIGLLII TISCTLSYNAGAAMNPSRDLAPRFF SYLAGYGTEPFGVKGYTWFFVPVLG SHCGAIIGGAIYQLFIGGQWPDDTS DTNSVSSMSYNEDNSTLTKRKQVSN IVHDSKGAKGSSTAPVN Note: The complete sequence including tag sequence, target protein sequence and linker sequence could be provided upon request. |
Purity : | Greater than 90% as determined by SDS-PAGE. |
Notes : | Repeated freezing and thawing is not recommended. Store working aliquots at 4°C for up to one week. |
Storage : | Store at -20°C/-80°C upon receipt, aliquoting is necessary for mutiple use. Avoid repeated freeze-thaw cycles. |
Storage Buffer : | Tris/PBS-based buffer, 6% Trehalose, pH 8.0 |
Reconstitution : | We recommend that this vial be briefly centrifuged prior to opening to bring the contents to the bottom. Please reconstitute protein in deionized sterile water to a concentration of 0.1-1.0 mg/mL.We recommend to add 5-50% of glycerol (final concentration) and aliquot for long-term storage at -20℃/-80℃. Our default final concentration of glycerol is 50%. Customers could use it as reference. |
Gene Name : | AQP8 |
Synonyms : | AQP8Aquaporin-8; AQP-8 |
UniProt ID : | G5CTG5 |
Gene Name : | AQP8 |
Synonyms : | AQP8Aquaporin-8; AQP-8 |
UniProt ID : | G5CTG5 |
Products Types
◆ Recombinant Protein | ||
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Aqp8-3605R | Recombinant Rat Aqp8, His-tagged | +Inquiry |
AQP8-8246H | Recombinant Human AQP8 protein, His & GST-tagged | +Inquiry |
◆ Lysates | ||
AQP8-34HCL | Recombinant Human AQP8 lysate | +Inquiry |
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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 (26)
Ask a questionCurrently, there are no approved drugs that directly target AQP8. However, researchers are actively studying and exploring the potential of AQP8 as a therapeutic target. Some studies have investigated the use of compounds that modulate AQP8 activity as potential treatments for certain liver diseases.
There is limited evidence suggesting that AQP8 may play a role in drug transport and drug resistance. Some studies have proposed that AQP8 could potentially affect the uptake or efflux of certain drugs, impacting their efficacy or resistance. However, further research is needed to fully understand the implications of AQP8 in drug pharmacokinetics and resistance mechanisms.
There is limited evidence suggesting that AQP8 may play a role in drug transport and drug resistance. Some studies have proposed that AQP8 could potentially affect the uptake or efflux of certain drugs, impacting their efficacy or resistance. However, further research is needed to fully understand the implications of AQP8 in drug pharmacokinetics and resistance mechanisms.
While AQP8 shows promise as a potential biomarker for certain diseases, more research is needed to establish its clinical utility. Studies have suggested that altered AQP8 expression may be associated with liver diseases, digestive disorders, and some cancers. However, further investigation is required to determine its diagnostic or prognostic value in clinical settings.
While AQP8 shows promise as a potential biomarker for certain diseases, more research is needed to establish its clinical utility. Studies have suggested that altered AQP8 expression may be associated with liver diseases, digestive disorders, and some cancers. However, further investigation is required to determine its diagnostic or prognostic value in clinical settings.
There is evidence suggesting that alterations in AQP8 expression or function may be implicated in cancer development. Studies have reported changes in AQP8 levels in various types of tumors, including hepatocellular carcinoma, colon cancer, and pancreatic cancer. Further research is being conducted to unravel the precise role of AQP8 in tumorigenesis and its potential as a therapeutic target.
Yes, AQP8 has been found to be expressed in the central nervous system, including regions such as the brain and spinal cord. It is involved in the regulation of water movement across brain cells and plays a role in maintaining brain homeostasis.
Yes, AQP8 has been found to be expressed in the central nervous system, including regions such as the brain and spinal cord. It is involved in the regulation of water movement across brain cells and plays a role in maintaining brain homeostasis.
AQP8 dysfunction has been associated with various health conditions. For example, in the liver, altered AQP8 expression has been linked to liver cirrhosis, cholestasis, and non-alcoholic fatty liver disease. In the digestive tract, changes in AQP8 expression have been observed in inflammatory bowel disease and diarrhea. Understanding the role of AQP8 in these conditions may provide insights for potential therapeutic interventions.
While there are no specific inhibitors or activators of AQP8 currently approved for clinical use, researchers are actively studying compounds that could modulate its activity. These studies aim to identify potential therapeutic targets for conditions related to AQP8 dysregulation.
The regulation of AQP8 expression in the gastrointestinal tract is complex and not fully understood. Multiple factors, such as hormones, cytokines, and dietary components, may influence its expression. For example, bile acids have been shown to upregulate AQP8 expression in the liver and small intestine.
The regulation of AQP8 expression in the gastrointestinal tract is complex and not fully understood. Multiple factors, such as hormones, cytokines, and dietary components, may influence its expression. For example, bile acids have been shown to upregulate AQP8 expression in the liver and small intestine.
AQP8 is being explored as a potential therapeutic target for various diseases. Researchers are investigating the development of drugs that can modulate AQP8 activity, particularly in liver diseases and certain cancers. Inhibition or activation of AQP8 could potentially be used to manage fluid balance disorders, liver diseases, and other conditions.
AQP8 is being explored as a potential therapeutic target for various diseases. Researchers are investigating the development of drugs that can modulate AQP8 activity, particularly in liver diseases and certain cancers. Inhibition or activation of AQP8 could potentially be used to manage fluid balance disorders, liver diseases, and other conditions.
Some studies have suggested a potential link between AQP8 expression and obesity. Alterations in AQP8 levels have been reported in adipose tissue of obese individuals. Further research is needed to ascertain the precise role and mechanisms through which AQP8 may contribute to obesity and related metabolic disorders.
Some studies have suggested a potential link between AQP8 expression and obesity. Alterations in AQP8 levels have been reported in adipose tissue of obese individuals. Further research is needed to ascertain the precise role and mechanisms through which AQP8 may contribute to obesity and related metabolic disorders.
While more research is needed, studies have implicated AQP8 dysfunction in various diseases and conditions. For example, altered expression or activity of AQP8 has been linked to liver diseases, such as non-alcoholic fatty liver disease (NAFLD) and liver fibrosis. Changes in AQP8 expression have also been observed in digestive disorders, including inflammatory bowel disease (IBD) and ulcerative colitis.
While more research is needed, studies have implicated AQP8 dysfunction in various diseases and conditions. For example, altered expression or activity of AQP8 has been linked to liver diseases, such as non-alcoholic fatty liver disease (NAFLD) and liver fibrosis. Changes in AQP8 expression have also been observed in digestive disorders, including inflammatory bowel disease (IBD) and ulcerative colitis.
Yes, besides its role in water transport, AQP8 has been implicated in several other physiological processes. For example, it is involved in the transport of glycerol, which is important for energy metabolism. AQP8 has also been shown to facilitate hydrogen peroxide transport, potentially impacting oxidative stress responses within the cell.
Yes, AQP8 is expressed in the kidney and has been implicated in water reabsorption in the renal tubules. It plays a role in maintaining water balance and urinary concentration. AQP8 function in the kidney is essential for proper kidney function and fluid homeostasis.
Yes, AQP8 is expressed in the kidney and has been implicated in water reabsorption in the renal tubules. It plays a role in maintaining water balance and urinary concentration. AQP8 function in the kidney is essential for proper kidney function and fluid homeostasis.
Although AQP8 is primarily known for its role as a water channel, studies have suggested its involvement in the transport of other small solutes, such as glycerol and hydrogen peroxide. However, more research is needed to fully understand these additional functions.
Yes, ongoing research continues to explore the role of AQP8 in various physiological and pathological contexts. Scientists are investigating its involvement in liver diseases, digestive disorders, and metabolic regulation, among other areas of interest. These studies aim to deepen our understanding of AQP8's functions and potential therapeutic applications.
Yes, animal models, such as mice, have been used to study AQP8 function and regulation. Knockout mouse models lacking the AQP8 gene have been developed to investigate its physiological roles. These models have provided insights into the impact of AQP8 deficiency on various organs and systems.
Yes, animal models, such as mice, have been used to study AQP8 function and regulation. Knockout mouse models lacking the AQP8 gene have been developed to investigate its physiological roles. These models have provided insights into the impact of AQP8 deficiency on various organs and systems.
Yes, certain genetic mutations in the AQP8 gene have been identified and associated with specific disorders. For instance, a mutation in AQP8 has been linked to primary male infertility, affecting sperm motility and function. These genetic abnormalities contribute to our understanding of AQP8's importance in reproductive processes.
Customer Reviews (8)
Write a reviewThe reliable performance of the AQP8 protein in ELISA and its compatibility with protein electron microscopy structure analysis make it an excellent choice for a wide range of research studies.
AQP8 protein is highly recommended for scientific research applications, especially in ELISA assays and protein electron microscopy structure analysis.
AQP8 protein has proven to be instrumental in protein electron microscopy structure analysis.
With AQP8 protein, researchers can visualize protein complexes and their interactions with remarkable clarity, unraveling important insights into their functional mechanisms.
The AQP8 protein comes highly recommended for its excellent performance in various research applications.
Researchers can confidently rely on its capabilities to generate precise and significant results, enhancing the understanding of protein function and dynamics.
Its reliable and accurate performance ensures dependable results, contributing to the advancement of scientific knowledge in various fields of study.
This protein demonstrates exceptional performance in ELISA, delivering accurate and reliable results in the detection and quantification of specific antigens.
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