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Retinoschisin (show RS1 Proteins), the protein involved in the pathogenesis of X-linked juvenile retinoschisis, membrane association is severely impaired in the absence of ATP1A3 (show ATP1A3 Proteins) and ATP1B2.
The AMOG expression pattern with altered cellular distribution observed in malformations of cortical development suggests that AMOG might contribute to abnormal cortical development via mTOR (show FRAP1 Proteins) activation.
analysis of pathways for maturation of the Na,K-ATPase (show ATP1A1 Proteins) beta1 and beta2 subunits in the endoplasmic reticulum
The strong expression of AMOG within the precursor cells of gangliogliomas may represent an additional marker for the diagnostic evaluation of these glioneuronal lesions
Results demonstrated that the sodium-potassium ATPase beta2 subunit (NKA1b2) was localized both in the neuronal cytoplasm and cellular membrane.
We identified interesting novel candidate genes that likely contribute to glioma progression and provide first evidence for a role of epigenetic silencing of AMOG in malignant glioma cells.
Common genetic variation in TP53 (show TP53 Proteins) and its flanking genes (ATP1B2) found no significant overall associations between SNPs in TP53 (show TP53 Proteins) and breast cancer risk
different members of the Na,K-ATPase (show ATP1A1 Proteins) beta subunit (show POLG Proteins) family may have specialized functions.
The results of this study show that the astrocytic Na+/K+-ATPase (show ATP1A1 Proteins) activity is dominated by the catalytic subunit of the alpha2 subtype.
ATP1B2 is stably expressed in multiple models of CNS injury and disease.
PKA phosphorylates the ATPase inhibitory factor 1 (show ATPIF1 Proteins) and inactivates its capacity to bind and inhibit the mitochondrial H(+)-ATP synthase.
increasing loss of AMOG/beta2 during malignant progression parallels and may underlie the extensive invasion pattern of malignant gliomas.
A novel role for a glial adhesion molecule (show NCAM1 Proteins) in cell size regulation through selective activation of the Akt (show AKT1 Proteins)/mTOR (show FRAP1 Proteins)/S6K (show RPS6KB1 Proteins) signal transduction pathway was shown.
This study suggests that the ATP1B2 single nucleotide polymorphism C2833T is a genetic marker of heat-resistance traits in Chinese Holstein cows.
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 2 subunit.
Na, K-ATPase beta-2 polypeptide
, adhesion molecule in glia
, adhesion molecule on glia
, sodium pump subunit beta-2
, sodium-potassium ATPase subunit beta 2 (non-catalytic)
, sodium/potassium-dependent ATPase beta-2 subunit
, sodium/potassium-dependent ATPase subunit beta-2
, sodium/potassium-transporting ATPase beta-2 chain
, sodium/potassium-transporting ATPase subunit beta-2
, glial cell adhesion molecule
, snoRNA MBI-85
, ATPase, Na+K+ transporting, beta polypeptide 2
, Na+K+ ATPase beta 2 subunit