Recombinant Zebrafish AQP9A
Cat.No. : | AQP9A-3382Z |
Product Overview : | Recombinant Zebrafish AQP9A full length or partial length protein was expressed. |
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Source : | Mammalian Cells |
Species : | Zebrafish |
Tag : | His |
Form : | Liquid or lyophilized powder |
Endotoxin : | < 1.0 eu per μg of the protein as determined by the LAL method. |
Purity : | >80% |
Notes : | This item requires custom production and lead time is between 5-9 weeks. We can custom produce according to your specifications. |
Storage : | Store it at +4 oC for short term. For long term storage, store it at -20 oC~-80 oC. |
Storage Buffer : | PBS buffer |
Gene Name : | aqp9a aquaporin 9a [ Danio rerio (zebrafish) ] |
Official Symbol : | AQP9A |
Gene ID : | 606660 |
mRNA Refseq : | NM_001033096 |
Protein Refseq : | NP_001028268 |
UniProt ID : | Q498W2 |
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 (35)
Ask a questionIt is suggested that AQP9A may contribute to fluid balance during exercise by facilitating water movement across cell membranes in tissues involved in fluid regulation, such as the liver and kidneys.
It is suggested that AQP9A may contribute to fluid balance during exercise by facilitating water movement across cell membranes in tissues involved in fluid regulation, such as the liver and kidneys.
Expression of AQP9A can be influenced by various physiological or pathological conditions. For example, AQP9A expression in the liver is often increased during conditions of metabolic stress, such as fasting or obesity.
Expression of AQP9A can be influenced by various physiological or pathological conditions. For example, AQP9A expression in the liver is often increased during conditions of metabolic stress, such as fasting or obesity.
Yes, the AQP9A protein has been shown to interact with various molecules such as ammonia, urea, and glycerol kinase. These interactions play a role in processes like ammonia detoxification and glycerol metabolism.
The trafficking of AQP9A within cells involves the packaging of the protein into vesicles and its movement along the endosomal and secretory pathways. Specific trafficking signals on the protein guide its localization to the appropriate cellular compartments, such as the plasma membrane or intracellular organelles.
The trafficking of AQP9A within cells involves the packaging of the protein into vesicles and its movement along the endosomal and secretory pathways. Specific trafficking signals on the protein guide its localization to the appropriate cellular compartments, such as the plasma membrane or intracellular organelles.
Currently, no specific drugs or compounds have been identified as direct modulators of AQP9A activity. However, research is ongoing to identify potential therapeutics that can target AQP9A in different disease contexts.
Currently, no specific drugs or compounds have been identified as direct modulators of AQP9A activity. However, research is ongoing to identify potential therapeutics that can target AQP9A in different disease contexts.
Yes, the expression of AQP9A can be regulated by hormones such as insulin and glucagon. For example, insulin can upregulate AQP9A expression in certain tissues, promoting water and glycerol transport.
Yes, the expression of AQP9A can be regulated by hormones such as insulin and glucagon. For example, insulin can upregulate AQP9A expression in certain tissues, promoting water and glycerol transport.
Yes, dysregulation of AQP9A expression or function has been associated with metabolic disorders such as obesity, insulin resistance, and dyslipidemia. This suggests that AQP9A may play a role in the regulation of whole-body energy metabolism.
Yes, dysregulation of AQP9A expression has been associated with liver diseases such as non-alcoholic fatty liver disease (NAFLD) and alcoholic liver disease (ALD).
Due to its involvement in various physiological processes and diseases, targeting AQP9A could potentially have therapeutic implications, particularly in treating conditions like liver diseases and metabolic disorders.
Due to its involvement in various physiological processes and diseases, targeting AQP9A could potentially have therapeutic implications, particularly in treating conditions like liver diseases and metabolic disorders.
There is ongoing research regarding the involvement of AQP9A in the transport of certain drugs or drug metabolites, especially in the liver, suggesting a potential role in drug pharmacokinetics.
Yes, several genetic variations and polymorphisms have been identified in the AQP9A gene. Some of these variations have been associated with altered susceptibility to certain diseases or conditions.
The transcriptional regulation of AQP9A involves the binding of transcription factors to specific DNA sequences within the gene's promoter region. These transcription factors can either enhance (activators) or inhibit (repressors) the expression of the AQP9A gene.
The transcriptional regulation of AQP9A involves the binding of transcription factors to specific DNA sequences within the gene's promoter region. These transcription factors can either enhance (activators) or inhibit (repressors) the expression of the AQP9A gene.
AQP9A has potential as a therapeutic target, particularly in the context of liver diseases and metabolic disorders. Developing drugs or interventions that can modulate AQP9A expression or activity may offer new treatment options in these areas.
AQP9A has potential as a therapeutic target, particularly in the context of liver diseases and metabolic disorders. Developing drugs or interventions that can modulate AQP9A expression or activity may offer new treatment options in these areas.
AQP9A dysfunction has been associated with various diseases and conditions, including liver diseases such as non-alcoholic fatty liver disease (NAFLD) and liver cirrhosis. Additionally, AQP9A polymorphisms have been linked to increased risk of metabolic disorders like type 2 diabetes.
AQP9A dysfunction has been associated with various diseases and conditions, including liver diseases such as non-alcoholic fatty liver disease (NAFLD) and liver cirrhosis. Additionally, AQP9A polymorphisms have been linked to increased risk of metabolic disorders like type 2 diabetes.
The expression of AQP9A can vary between different cell types within the liver and adipose tissue, reflecting their specific metabolic functions.
Yes, the expression of the AQP9A protein can be influenced by various factors such as hormones, nutrients, and osmotic changes.
Studies have implicated the dysregulation of AQP9A in several diseases and conditions, including obesity, liver diseases, and metabolic disorders.
Yes, Aquaporins, including AQP9A, are known for their involvement in water transport across cell membranes. AQP9A can facilitate water movement between cells, contributing to overall osmoregulation.
Yes, AQP9A expression can vary among different human populations and individuals due to genetic and environmental factors, contributing to differences in water and solute transport capabilities.
Yes, AQP9A expression can vary among different human populations and individuals due to genetic and environmental factors, contributing to differences in water and solute transport capabilities.
Yes, studies continue to investigate the role of AQP9A in various physiological and pathological processes, aiming to further understand its function and potential therapeutic implications.
Some post-translational modifications that have been observed on the AQP9A protein include phosphorylation, glycosylation, and ubiquitination. These modifications can affect the stability, subcellular localization, and transport activity of the protein.
Some post-translational modifications that have been observed on the AQP9A protein include phosphorylation, glycosylation, and ubiquitination. These modifications can affect the stability, subcellular localization, and transport activity of the protein.
Currently, there are no specific inhibitors or activators identified for the AQP9A protein. However, further research is needed to identify potential modulators of its activity.
Yes, AQP9A is expressed in the gastrointestinal tract, where it is involved in the transport of water, glycerol, and potentially other nutrients across the gut epithelium.
Yes, AQP9A is expressed in the gastrointestinal tract, where it is involved in the transport of water, glycerol, and potentially other nutrients across the gut epithelium.
Customer Reviews (8)
Write a reviewWhether I am studying protein interactions, cellular localization, or signaling pathways, the AQP9A protein consistently delivers reliable and reproducible data, enabling significant scientific advancements.
Its superior purity and stability ensure reliable and accurate results, instilling confidence in my research.
With the AQP9A protein and the manufacturer's support, I am confident in obtaining accurate and meaningful results for my scientific investigations.
With their assistance, I can overcome obstacles and optimize my experimental setup.
the AQP9A protein's compatibility with various experimental techniques further supports its usability.
Its purity, stability, and consistency ensure reliable and reproducible results, giving me confidence in the integrity of my research findings.
This flexibility ensures that the AQP9A protein can address my specific research objectives efficiently.
Whether I need to study protein-protein interactions, protein localization, or protein folding, the AQP9A protein consistently delivers precise and meaningful data.
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