ATP2B3A
Species | Cat.# | Product name | Source (Host) | Tag | Protein Length | Price |
---|---|---|---|---|---|---|
Zebrafish | ATP2B3A-602Z | Recombinant Zebrafish ATP2B3A | Mammalian Cell | His |
- Involved Pathway
- Protein Function
- Interacting Protein
ATP2B3A involved in several pathways and played different roles in them. We selected most pathways ATP2B3A participated on our site, such as Hemostasis, Ion channel transport, Ion transport by P-type ATPases, which may be useful for your reference. Also, other proteins which involved in the same pathway with ATP2B3A were listed below. Creative BioMart supplied nearly all the proteins listed, you can search them on our site.
Pathway Name | Pathway Related Protein |
---|---|
Hemostasis | VPS45;DOCK2;SLC7A8A;GRB7;SCG3;CAP1;ABHD6B;CFHL2;TAE1 |
Ion channel transport | TRDN;ATP13A;ATP2C1;MCOLN2;CCC2;ATP13A1;FXYD6;TRPM1B;ANO5B |
Ion transport by P-type ATPases | ATP2B3A;PDZD11;ATP13A5;CCC2;FXYD3;ATP11C;ATP13A1;ATP13A;ATP2B1B |
Platelet calcium homeostasis | SLC8A2A;ATP2B3A;ATP2B1B |
Platelet homeostasis | SLC8A2A;KCNMB2;KCNMB1;KCNMA1;ATP2B1B;ATP2B3A;APOER2;PDE10A |
Reduction of cytosolic Ca++ levels | SLC8A2A;ATP2B3A;ATP2B1B |
Transmembrane transport of small molecules | SLC17A7A;SLC15A1B;SLC1A2B;ABCB8;AZGP1;OSTM1;SLC22A7B.1;SLC38A5B;SLC7A3 |
ATP2B3A has several biochemical functions, for example, ATP binding, PDZ domain binding, calcium-transporting ATPase activity. Some of the functions are cooperated with other proteins, some of the functions could acted by ATP2B3A itself. We selected most functions ATP2B3A had, and list some proteins which have the same functions with ATP2B3A. You can find most of the proteins on our site.
Function | Related Protein |
---|---|
ATP binding | CNTN1B;IDH3G;DCK;CHD4A;MAP2K4A;GMPS;CDKL3;LTK;RBM4.3 |
PDZ domain binding | PROSAPIP1;GRASP;SLC9A3R2;ATP2B2;NSF;KCNJ4;DTNA;PLEKHA2;ATP2B1 |
calcium-transporting ATPase activity | ATP2B1B;ATP2A1L;ATP2A2A;ATP2A2B;ATP2B4;ATP2A3;ATP2B1;ATP2A2;ATP2A1 |
hydrolase activity | INPPL1A;METAP2;ATP2B1;KLK1B3;Adamts19;USP2A;INPP5KA;DDHD2;GZMF |
metal ion binding | E4F1;BCL11AB;CYP46A1.3;MBLAC2;ZFP511;ZC3H14;ZFP319;TAX1BP1;GALNTL2 |
nucleotide binding | MYO1EB;MSI2B;MSI1;EEF2B;ELAVL2;KIF27;PRKACBB;PRTFDC1;PPRC1 |
ATP2B3A 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 ATP2B3A here. Most of them are supplied by our site. Hope this information will be useful for your research of ATP2B3A.
- Q&As
- Reviews
Q&As (6)
Ask a questionThe ATP2B3A protein contains multiple domains, including an N-terminal domain and a C-terminal domain. Its C-terminal domain contains an ATP-binding site and a calcium-binding site for ATP hydrolysis and calcium transport.
Mutations in ATP2B3A protein are associated with nervous system diseases, including autism, Parkinson's disease and schizophrenia. These mutations may affect the function of ATP2B3A protein and then interfere with the normal activity of neurons.
ATP2B3A protein regulates the calcium concentration of neurons by transporting intracellular calcium to the outside of the cells. This is essential for postsynaptic Ca 2 + signaling and neuronal excitability during neurotransmission.
The mutation of ATP2B3A protein may lead to its dysfunction and affect the Ca2 + regulation and neurotransmission process of neurons. This may be related to the development of neurological diseases and pathological mechanisms, such as abnormal excitability of neurons.
Researchers can use cell culture models and animal models to study the function of ATP2B3A by overexpressing, knockout, or mutating the gene. In addition, co-immunoprecipitation and calcium imaging techniques can be used to explore the interaction between ATP2B3A protein and other proteins and the regulatory mechanism of calcium ion.
The expression and activity of ATP2B3A protein are affected by a variety of regulatory mechanisms, including transcriptional regulation, post-translational modification, and protein-protein interaction. These mechanisms can regulate the abundance and function of ATP2B3A protein in cells.
Customer Reviews (3)
Write a reviewATP2B3A has excellent stability and can maintain its structural and functional stability after multiple uses, which provides great convenience for long-term experiments or applications. or applications.
The catalytic activity of ATP2B3A is excellent, and it can efficiently promote the progress of chemical reactions, showing excellent catalytic performance.
The production process of ATP2B3A is very environmentally friendly and does not use any chemicals or produce any harmful waste, which is very consistent with the principle of green production.
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