Anti-NOX2/gp91phox Antibody | Gentaur

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€340.00
SKU:
252-10-P1667-GEN
Availability:
IN STOCK
Size:
100 µg
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Product Overview

Anti-NOX2/gp91phox Antibody

Product Name

Anti-NOX2/gp91phox/CYBB Antibody

Form

Lyophilized

Description

Boster Bio Anti-NOX2/gp91phox/CYBB Antibody catalog # PA1667. Tested in IHC-P, WB applications. This antibody reacts with Human, Mouse, Rat.

Storage & Handling

Store at -20˚C for one year from date of receipt. After reconstitution, at 4˚C for one month. It can also be aliquotted and stored frozen at -20˚C for six months. Avoid repeated freeze-thaw cycles.

Host

Rabbit

Contents

Each vial contains 5mg BSA, 0.9mg NaCl, 0.2mg Na2HPO4, 0.05mg Thimerosal, 0.05mg NaN3.

Clonality

Polyclonal

Immunogen

A synthetic peptide corresponding to a sequence in the middle region of human NOX2 (442-459aa YWLCRDTHAFEWFADLLQ), identical to the related rat and mouse sequences.

Cross Reactivity

No cross reactivity with other proteins

Reactive Species

PA1667 is reactive to CYBB in Human, Mouse, Rat

Applications

PA1667 is guaranteed for IHC-P, WB Boster Guarantee

Background Of CYBB/NOX2

NOX2 (NADPH OXIDASE 2), also called CYBB (CYTOCHROME b (-245), BETA SUBUNIT), p91-PHOX or GP91-1, is a human gene encoding a glycoprotein.NOX2 is an essential component of phagocytic NADPH-oxidase, a membrane-bound enzyme complex that generates large quantities of microbicidal superoxide and other oxidants upon activation. It is mapped on Xp11.4. NOX2 is a heterodimer composed of an alpha chain of relative molecular mass 23 kD and a beta chain of 76 to 82 kD. NOX2 assembled on DC phagosomes in a gp91-phox subunit-dependent manner, and that reactive oxygen species were produced in a more sustained manner in immature DC phagosomes than in macrophage phagosomes. As a major player in innate immune responses in neutrophils, NOX2 is also involved in adaptive immunity through its activity in DCs. In heart cells, physiologic stretch rapidly activates reduced-form NOX2 to produce reactive oxygen species (ROS) in a process dependent on microtubules (X-ROS signaling).

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