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These results demonstrate that CASPR1 binds with ATP1B3 and thereby contributes to the regulation of Na(+)/K(+)-ATPase maturation and trafficking to the plasma membrane in brain microvascular endothelial cells.
ligation of the Na, K ATPase beta3 subunit on monocytes by mAb P-3E10 arbitrated T cell hypofunction. This mAb might be a promising novel immunotherapeutic antibody for the treatment of hyperresponsive T cell associated diseases.
Our study demonstrated that ATP1B3 inhibit EV71 replication by enhancing the production of type-I interferons, which could act as a potential therapeutic target in EV71 infection.
Data suggest that ATP1B3 is binding partner of BST-2 and regulates stability of BST-2; ATP1B3 is co-factor that accelerates BST-2 degradation and reduces BST-2-mediated restriction of HIV-1 replication/tropism and NFkappaB activation.
B7H3 and ATP1B3 are overexpressed in tumor endothelial cells, favoring an angiogenic phenotype.
role in T and B lymphocyte activation
These results evidenced that the beta3 subunit of Na, K ATPase is expressed on RBC membrane but the epitope recognized by mAb P-3E10 is hidden in normal RBCs. we showed the association of beta3 subunit and alpha subunit of Na, K ATPase.
Elevated Na+ -K+ -ATPase activity postexercise may contribute to reduced fatigue after training.
These findings indicate that the beta3 subunit of the Na+,K+-ATPase is a novel determinant of nociceptive sensitivity and further supports the notion that pain variability genes have selective effects on individual pain modalities.(ATP1BETA3, MOUSE)
Inward current is a property inherent to Na/K pumps, not linked to the oocyte expression environment.
There are different functional roles for individual Na,K-ATPase genes in zebrafish ear development
The protein encoded by this gene belongs to the family of Na+/K+ and H+/K+ ATPases beta chain proteins, and to the subfamily of Na+/K+ -ATPases. Na+/K+ -ATPase is an integral membrane protein responsible for establishing and maintaining the electrochemical gradients of Na and K ions across the plasma membrane. These gradients are essential for osmoregulation, for sodium-coupled transport of a variety of organic and inorganic molecules, and for electrical excitability of nerve and muscle. This enzyme is composed of two subunits, a large catalytic subunit (alpha) and a smaller glycoprotein subunit (beta). The beta subunit regulates, through assembly of alpha/beta heterodimers, the number of sodium pumps transported to the plasma membrane. The glycoprotein subunit of Na+/K+ -ATPase is encoded by multiple genes. This gene encodes a beta 3 subunit. This gene encodes a beta 3 subunit. A pseudogene exists for this gene, and it is located on chromosome 2.
Na, K-ATPase beta-3 polypeptide
, sodium pump subunit beta-3
, sodium-potassium ATPase subunit beta 3 (non-catalytic)
, sodium/potassium-dependent ATPase beta-3 subunit
, sodium/potassium-dependent ATPase subunit beta-3
, sodium/potassium-transporting ATPase beta-3 chain
, sodium/potassium-transporting ATPase subunit beta-3
, ATPase, Na+/K+ beta 3 polypeptide
, Na K-ATPase beta-3 subunit
, ATPase, Na+K+ transporting, beta polypeptide 3
, Na+/K+ -ATPase beta 3 subunit
, (Na+,K+)-ATPase-beta-2 subunit
, Na+/K+ ATPase beta 3 subunit
, Na+,K+-ATPase beta-3 subunit
, ATPase, Na+/K+ beta 3a polypeptide
, NA,K-ATPase B subunit