AQP9B
| Species | Cat.# | Product name | Source (Host) | Tag | Protein Length | Price |
|---|---|---|---|---|---|---|
| Zebrafish | AQP9B-7747Z | Recombinant Zebrafish AQP9B | Mammalian Cell | His |
|
- Involved Pathway
- Protein Function
- Interacting Protein
AQP9B involved in several pathways and played different roles in them. We selected most pathways AQP9B participated on our site, such as Aquaporin-mediated transport, Passive transport by Aquaporins, Transmembrane transport of small molecules, which may be useful for your reference. Also, other proteins which involved in the same pathway with AQP9B were listed below. Creative BioMart supplied nearly all the proteins listed, you can search them on our site.
| Pathway Name | Pathway Related Protein |
|---|---|
| Aquaporin-mediated transport | AQP3B;MIPB;ADCY9;GNB3B;GNB5A;AQP1A.1;AQP6;ADCY1;ADCY6 |
| Passive transport by Aquaporins | AQP1A.2;AQP3A;MIPA;AQP10B;AQP3B;AQP8A.1;AQP1A.1;AQP10A;AQP9B |
| Transmembrane transport of small molecules | WNK1;ATP8B1;SLC34A3;WNK2;TRPC5;SLC30A2;RHBG;SLC1A3B;APOD |
| Transport of glycerol from adipocytes to the liver by Aquaporins |
AQP9B has several biochemical functions, for example, arsenite transmembrane transporter activity, glycerol channel activity, glycerol transmembrane transporter activity. Some of the functions are cooperated with other proteins, some of the functions could acted by AQP9B itself. We selected most functions AQP9B had, and list some proteins which have the same functions with AQP9B. You can find most of the proteins on our site.
| Function | Related Protein |
|---|---|
| arsenite transmembrane transporter activity | ASNA1;AQP3B;AQP9A;AQP3A;AQP10A;AQP9B |
| glycerol channel activity | AQP8A.2;AQP1A.2;AQP5;MIP;AQP8B;AQP8A.1;AQP10B;AQP6;AQP4 |
| glycerol transmembrane transporter activity | AQP3B;AQP2;AQP9A;AQP3A;AQP10A;AQP10B;AQP9B;AQP1 |
| transporter activity | ATP6V1C1;SYP;LCN12;SLC6A18;SLC5A8;SLC2A11L;RBP4L;SLC51A;SLC25A38B |
| urea transmembrane transporter activity | AQP10B;AQP3A;AQP3;AQP10;AQP3B;AQP10A;AQP9B;AQP9A;AQP9 |
| water channel activity | AQP6;AQP1;AQP8A.1;AQP10B;AQP2;AQP10;AQP3B;AQP8;AQP9 |
| water transmembrane transporter activity | MIPA;AQP8A.2;AQP2;AQP1;AQP4;AQP9A;AQP3A;AQP1A.1;AQP8B |
AQP9B has direct interactions with proteins and molecules. Those interactions were detected by several methods such as yeast two hybrid, co-IP, pull-down and so on. We selected proteins and molecules interacted with AQP9B here. Most of them are supplied by our site. Hope this information will be useful for your research of AQP9B.
- Q&As
- Reviews
Q&As (24)
Ask a questionThe conservation of AQP9B across species is not well-documented. Comparative genomic analysis and experimental studies in different organisms would be necessary to determine the extent of conservation.
The utility of AQP9B as a biomarker for specific diseases is currently unknown due to the lack of research in this area. Further investigations are needed to evaluate its potential as a diagnostic or prognostic biomarker.
The conservation of AQP9B across species is not well-documented. Comparative genomic analysis and experimental studies in different organisms would be necessary to determine the extent of conservation.
The utility of AQP9B as a biomarker for specific diseases is currently unknown due to the lack of research in this area. Further investigations are needed to evaluate its potential as a diagnostic or prognostic biomarker.
Since the function of AQP9B is not fully elucidated, specific diseases or conditions associated with its dysfunction are currently unknown. Further research is required to understand its implications in human health and disease.
The hormonal regulation of AQP9B is not yet established. However, given the involvement of other aquaporins in hormonal processes, it is plausible that hormone signaling could influence the expression or activity of AQP9B.
As of now, there is a scarcity of research specifically focused on AQP9B. However, considering the importance of aquaporins in various physiological processes, ongoing studies on aquaporins may indirectly contribute to our understanding of AQP9B.
As of now, there is a scarcity of research specifically focused on AQP9B. However, considering the importance of aquaporins in various physiological processes, ongoing studies on aquaporins may indirectly contribute to our understanding of AQP9B.
The role of AQP9B in osmoregulation is not yet established. However, given the involvement of other aquaporins in water flux regulation across membranes, it is possible that AQP9B may contribute to osmoregulation processes.
The role of AQP9B in osmoregulation is not yet established. However, given the involvement of other aquaporins in water flux regulation across membranes, it is possible that AQP9B may contribute to osmoregulation processes.
Post-translational modifications of AQP9B have not been extensively studied. However, common modifications like phosphorylation, glycosylation, and ubiquitination could potentially occur on this protein.
The tissue distribution of AQP9B is not extensively studied, but it appears to be expressed in various organs, including the liver, kidney, lung, and gastrointestinal tract.
Studies on the altered expression of AQP9B in pathological conditions are lacking. However, in certain diseases or conditions involving fluid and ion homeostasis, dysregulation of aquaporins has been observed. Further investigations are required to determine if AQP9B plays a role in any specific pathologies.
Studies on the altered expression of AQP9B in pathological conditions are lacking. However, in certain diseases or conditions involving fluid and ion homeostasis, dysregulation of aquaporins has been observed. Further investigations are required to determine if AQP9B plays a role in any specific pathologies.
Currently, there is limited information regarding genetic variations or mutations in the AQP9B gene. Genetic studies and population analyses are required to identify any variants or mutations and evaluate their potential implications.
Currently, there is limited information regarding genetic variations or mutations in the AQP9B gene. Genetic studies and population analyses are required to identify any variants or mutations and evaluate their potential implications.
The transcriptional regulation of AQP9B is not well-understood. It may be regulated by specific transcription factors that bind to its promoter region, similar to other aquaporin genes.
The interacting partners or binding partners of AQP9B have not been extensively characterized. Further research is needed to identify any proteins or molecules that interact with AQP9B.
The interacting partners or binding partners of AQP9B have not been extensively characterized. Further research is needed to identify any proteins or molecules that interact with AQP9B.
The evolutionary relationships between AQP9B and other aquaporins have not been extensively studied. However, bioinformatics analyses and comparative genomics could be employed to understand the evolutionary conservation and relationship of AQP9B in relation to other aquaporin family members.
Currently, there is limited evidence regarding the involvement of AQP9B in fluid and electrolyte balance. Further studies are needed to determine its functional role in these processes.
The therapeutic potential of targeting AQP9B is currently uncertain due to the limited understanding of its function and involvement in diseases. Future research might shed light on its potential as a therapeutic target in specific conditions.
The specific function of AQP9B in the central nervous system is currently unknown. While some aquaporins have been found to play a role in brain water homeostasis, more research is needed to elucidate any potential involvement of AQP9B in CNS functions.
The specific function of AQP9B in the central nervous system is currently unknown. While some aquaporins have been found to play a role in brain water homeostasis, more research is needed to elucidate any potential involvement of AQP9B in CNS functions.
Customer Reviews (8)
Write a reviewTheir assistance has been invaluable in streamlining my experiments and overcoming obstacles effectively.
In addition to its high-quality attributes, the manufacturer of the AQP9B protein offers exemplary technical support.
the AQP9B protein exhibits superior performance across a range of experimental applications.
The AQP9B protein is an outstanding product that possesses exceptional quality, making it an ideal choice for my experimental needs.
Their experienced team is dedicated to resolving any issues or challenges I may encounter during my experiments, providing prompt and effective solutions.
What sets AQP9B apart is the manufacturer's unparalleled technical support.
The versatility of the AQP9B protein makes it a valuable asset in my research.
The AQP9B protein is renowned for its exceptional quality, making it a perfect match for my experimental requirements.
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