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NOX4 Monoklonaler Antikörper

NOX4 Monoklonal Antikörper für

Wirt / Isotyp

Maus / IgG1

Getestete Reaktivität

human, Ratte

Anwendung

Konjugation

CoraLite®555 Fluorescent Dye

CloneNo.

4E5F1

Kat-Nr. : CL555-67681

Synonyme

KOX, Kidney superoxide-producing NADPH oxidase, Kidney oxidase-1, Kidney oxidase 1, EC:1.6.3.1

Geprüfte Anwendungen

Produktinformation

CL555-67681 bindet in NOX4 und zeigt Reaktivität mit human, Ratten

Getestete Reaktivität human, Ratte
Wirt / Isotyp Maus / IgG1
Klonalität Monoklonal
Typ Antikörper
Immunogen NOX4 fusion protein Ag6176
Vollständiger Name NADPH oxidase 4
Berechnetes Molekulargewicht 67 kDa
Beobachtetes Molekulargewicht67 kDa
GenBank-ZugangsnummerBC040105
Gene symbol NOX4
Gene ID (NCBI) 50507
Konjugation CoraLite®555 Fluorescent Dye
Excitation/Emission maxima wavelengths557 nm / 570 nm
Form Liquid
Reinigungsmethode Protein-G-Reinigung
Lagerungspuffer PBS with 50% glycerol, 0.05% Proclin300, 0.5% BSA
LagerungsbedingungenBei -20°C lagern. Vor Licht schützen. Nach dem Versand ein Jahr stabil. Aliquotieren ist bei -20oC Lagerung nicht notwendig. 20ul Größen enthalten 0,1% BSA.

Hintergrundinformationen

NOX4 (NADPH oxidase 4) is a phagocyte-type oxidase, similar to that responsible for the production of large amounts of reactive oxygen species (ROS) in neutrophil granulocytes with resultant antimicrobial activity and it has been postulated to function in the kidney as an oxygen sensor that regulates the synthesis of erythropoietin in the renal cortex. Studies have reported molecular masses of Nox4 protein by western blot analysis ranging from 55 to 80 kDa. The truncated NOX4 splice variant D (28 kDa) lacks the majority of the transmembrane domain and has been shown to produce higher levels of ROS and DNA damage compared to its prototype. NOX4D has previously been shown to localise to the nucleus and nucleolus in various cell types and is implicated in the generation of reactive oxygen species (ROS) and DNA damage (PMID: 11728818, PMID: 29285262, PMID: 14670934). Nox4 in cardiac myocytes is primarily expressed in mitochondria, and upregulation of Nox4 induced by hypertrophic stimuli elicits mitochondrial dysfunction and cardiac failure. In breast or ovarian tumor cells, mitochondrial Nox4 contributes to oncogenesis. In vascular endothelial cells, however, Nox4 is expressed in the endoplasmic reticulum (ER) and plays a specific role in redox-mediated ER signaling (PMID: 24259511).