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Anti-Beta 2 Na+/K+ ATPase (extracellular)-FITC Antibody

Anti-Beta 2 Na+/K+ ATPase (extracellular)-FITC Antibody

Item no.	ALO-ANP-012-F-10x50ul
Manufacturer	Alomone
Amount	10 x 50 ul
Quantity options	10 x 50 ul 2 x 50 ul 50 ul 5 x 50 ul
Category	Neuroscience Neural Signaling Antibodies Flow Cytometry Primary Antibodies
Type	Antibody Polyclonal
Format	Lyophilized
Applications	FC
Specific against	Human (Homo sapiens), Mouse (Murine, Mus musculus), Rat (Rattus norvegicus)
Host	Rabbit
Isotype	IgG
Conjugate/Tag	FITC
Purity	Affinity purified on immobilized antigen.
Formula	PBS pH7.4, 1% BSA with 0.05% sodium azide
Sequence	(C)DTESWDQHVQKLNK, corresponding to amino acid residues 99-112 of rat ATP1B2
ECLASS 10.1	32160702
ECLASS 11.0	32160702
UNSPSC	12352203
Shipping Condition	Room temperature
Available
Manufacturer - Type	Antibodies
Manufacturer - Applications	FC, LCI
Manufacturer - Category	Antibodies
Manufacturer - Targets	ATP1B2, Sodium/potassium-transporting ATPase subunit beta-2, Adhesion molecule on glia, AMOG
Country of Origin	Israel
Shipping Temperature	Shipped at room temperature. Product as supplied can be stored intact at room temperature for several weeks. For longer periods, it should be stored at -20°C
Storage Conditions	Storage before Reconstitution: The antibody ships as a lyophilized powder at room temperature. Upon arrival, it should be stored at -20°C - Storage after Reconstitution: The reconstituted solution can be stored at 4°C, protected from the light, for up to 1 week. For longer periods, small aliquots should be stored at -20°C. Avoid multiple freezing and thawing. Centrifuge all antibody preparations before use (10000 x g 5 min).
Manufacturer - Format	Lyophilized powder
Short description	A Rabbit Polyclonal Antibody to κ-Opioid Receptor (extracellular) conjugated to the fluorescent dye FITC
Description	ATP1B2, Sodium/potassium-transporting ATPase subunit beta-2, Adhesion molecule on glia, AMOG - A Rabbit Polyclonal Antibody to ?-Opioid Receptor (extracellular) conjugated to the fluorescent dye FITC
Clonality	Polyclonal
Homology	Human - identical, mouse 13 out of 14 amino acid residues identical
Standard quality control of each lot	Western blot analysis (unlabeled antibody, #ANP-012), and direct flow cytometry (labeled antibody).
Peptide confirmation	Confirmed by amino acid analysis and mass spectrometry
Reconstitution	50 µl double distilled water (DDW).
Antibody Concentration After Reconstitution	1 mg/ml
Preservative	1% BSA, 0.05% NaN3
Immunogen Location	Extracellular, C-terminus
Specificity	ATP1B2
Immunogen source species	Rat
PH	7, 4
UNSPSC	41116161
Antigen Preadsorption Control	1 µg peptide per 1 µg antibody
Scientific Background	P-type ATPases are a large family of molecular pumps that exploit a phosphorylated enzyme intermediate in a two-step mechanism of ATP hydrolysis, cycling through states which are associated with ion transport or ion counter-transport. The Na+/K+-ATPase, a member of this family, is almost exclusively found in animals, although close homologues have been reported in certain archaea, algae and oomycetes.The Na+/K+-ATPase is comprised of a nucleotide-binding (N) and phosphorylation (P) domain, a transmembrane core (M1-M6) and a large carboxy-terminal M7-M10 segment. Na+/K+-ATPase undergoes large conformational changes as part of its functional cycle giving rise to two distinct enzymatic states: E1, which is a high-affinity state for the primary transported ion- Na+ and E2, which is the low-affinity state for the Na+ ion. The two states arise from the autocatalysed formation and breakdown of a phosphoenzyme intermediate, coupled to the binding, occlusion, translocation and release of ions. The phosphorylation site is the Asp residue of a conserved DKTGT motif. The core of the membrane transport domain encompasses transmembrane helices M1-M6, which hold the main ion-binding sites and are necessary for cytoplasmic and extracellular ion transport. A terminal R domain extension, which serves as a regulatory unit, can be found in the C-terminal of the protein. This unit is auto-inhibitory and is predicted to restrict transmembrane helix movements and/or access of ions to the membrane transport core1. Na+/K+-ATPase has been implicated in the pathogenesis of Alzheimer's Disease. A deficiency in several Na+/K+-ATPase isoform genes induce learning and memory deficits, and the α isoform is altered in Alzheimer's Disease2.

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All products are intended for research use only (RUO). Not for human, veterinary or therapeutic use.

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ALO-ANP-012-F-10x50ul-safety-datasheet.pdf