P5931
Phosphatase, Alkaline from Escherichia coli
lyophilized powder, 30-60 units/mg protein (in glycine buffer)
Sinónimos:
Orthophosphoric-monoester phosphohydrolase (alkaline optimum)
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About This Item
Productos recomendados
formulario
lyophilized powder
Nivel de calidad
actividad específica
30-60 units/mg protein (in glycine buffer)
composición
Protein, ~50% biuret
temp. de almacenamiento
−20°C
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Descripción general
Alkaline phosphatase (ALP) of E.coli is a member of an enzyme group that possesses intragenic complementation.
Aplicación
Alkaline phosphatase is used for conjugation to antibodies and other proteins for ELISA, Western blotting, and histochemical detection. It may be used for protein labeling when high sensitivity is required. Product P5931 has been used during immunoblots to treat cell membranes prior to Tau1 incubation.
The enzyme from Sigma has been used to develop a synthetic nanopore membrane. This membrane mimics protein channels that are regulated by phosphorylation/dephosphorylation and uses an aligned array of carbon nanotubes (CNTs) impregnated in a polystyrene matrix.
Acciones bioquímicas o fisiológicas
Alkaline phosphatase, from Escherichia coli, is a dimeric, non-glycosylated protein which mainly reside in the periplasmic space. Three known isoforms exist. The enzyme requires zinc, and is activated by magnesium. E. coli akaline phosphatase has a broad specificity for phosphate esters.
The enzyme is a phosphohydrolase having an optimal pH of 10 in vitro. The actual optimum pH varies depending on the nature and concentration of the substrate, the type of buffer, the phosphate acceptor, and to some extent the nature of the isoenzymes. It catalyzes the hydrolysis of phosphate monoesters such as p-nitrophenyl phosphate, phenyl phosphate, phenolphthalein phosphate, α-glycerol phosphate, β-glycerol phosphate, 2-phosphorylglycerate, triosephosphate, glucose-6-phosphate, glucose 1-phosphate, fructose 1-phosphate, fructose 6-phosphate, adenosine 5-phosphate adenosine 3-phosphate, phosphoenolpyruvate, and β-nicotinamide adenine dinucleotide phosphate. The activity is inhibited by 1,10-phenanthroline monohydrate, diethylenetriaminepentaacetic acid, ethylene glycol-bis(2-aminoethylether)-N,N,N′,N′-tetraacetic acid, and ethylenediaminetetraacetic acid disodium salt dihydrate.
Definición de unidad
One unit will hydrolyze 1.0 μmole of p-nitrophenyl phosphate per min at pH 10.4 at 37 °C.
Forma física
Lyophilized powder containing Tris buffer salts, MgSO4, and ZnSO4
Nota de preparación
Chromatographically purified
inhibidor
Referencia del producto
Descripción
Precios
Palabra de señalización
Danger
Frases de peligro
Consejos de prudencia
Clasificaciones de peligro
Resp. Sens. 1
Código de clase de almacenamiento
11 - Combustible Solids
Clase de riesgo para el agua (WGK)
WGK 1
Punto de inflamabilidad (°F)
Not applicable
Punto de inflamabilidad (°C)
Not applicable
Equipo de protección personal
Eyeshields, Gloves, type N95 (US)
Certificados de análisis (COA)
Busque Certificados de análisis (COA) introduciendo el número de lote del producto. Los números de lote se encuentran en la etiqueta del producto después de las palabras «Lot» o «Batch»
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Los clientes también vieron
Characterization of Heterodimeric Alkaline Phosphatases from Escherichia coli: An Investigation of Intragenic Complementation
Hehir MJ, et al.
Journal of molecular biology, 304(4), 645-656 (2000)
1.Reid, T., and Wilson
E. coli Alkaline Phosphatase,The Enzymes, 3rd Ed. Vol. 4, 4, 373-373 (1971)
Alkaline phosphatase from Thermotoga neapolitana.
A Savchenko et al.
Methods in enzymology, 331, 298-305 (2001-03-27)
Sergey Korshunov et al.
Molecular microbiology, 113(1), 22-39 (2019-10-16)
The structure of free cysteine makes it vulnerable to oxidation by molecular oxygen; consequently, organisms that live in oxic habitats have acquired the ability to import cystine as a sulfur source. We show that cystine imported into Escherichia coli can
R A Anderson et al.
Proceedings of the National Academy of Sciences of the United States of America, 72(1), 394-397 (1975-01-01)
To facilitate the study of individual metal binding sites of polymeric metalloproteins, conversion of exchange-labile Co(II) in E. coli alkaline phosphatase (EC 3.1.3.1) to exchange-inert Co(III) was examined. Oxidation of Co(II) alkaline phosphatase with hydrogen peroxide results in a single
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