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Lipoxygenase, 100 mg
Storage temp. -20 °C
Transport temp. ambient temp.
WGK 1
CAS No. 9029-60-1
EG-Nr. 232-853-1
Well soluble in H2O or buffer.
Recommended storage of stock solution in aliquots at -20 °C.
166,65 €/VE
Excl. btw | 100 mg Per VE
Bestelnr. CN73.1
Productdetails
Lipoxygenase ≥100 000 U/mg, for biochemistry
Lipoxygenase stereo-specifically catalyses the oxidation of arachidonic acid, initiating the formation of leukotrienes in eicosanoid metabolism.
One unit will cause an increase in absorption (234 nm) of 0.001 per minute at 25 °C and pH 9 by oxidation of linoleic acid.
- Tussentotaal: 0.00
Bestelnr. | VE | Verp. | Prijs | Hoeveelheid | |
---|---|---|---|---|---|
CN73.1 | 100 mg | glass |
166,65 € |
|
|
CN73.2 | 500 mg | glass |
762,20 € |
|
|
CN73.3 | 1 g | glass |
1.327,65 € |
|
|
Op voorraad
Beschikbaar
In bestelling
Niet meer verkrijgbaar
Leveringsdatum onbekend
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- Tussentotaal: 0.00
Downloads / MSDS
Algemene informatie
Enzyme: a neoclassical, Greek artificial word ενζυμου, énzymon, derived from εν-, en- (in-) and ζυμη, zýmé (yeast, sourdough, archaic)
Ferments: comes from the Latin fermentum (ferments, sourdough)
There are six classes in which all enzymes are classified according to the particular reaction they catalyse:
• Oxidoreductases (catalyse redox reactions)
• Transferases (transfer functional groups among substrates)
• Hydrolases (cleave bonds via addition of water)
• Lyases/Synthases (cleave or synthesise complex products out of basic substrates without cleavage of ATP)
• Isomerases (transform chemical isomers)
• Ligases/Synthetases (cleave or synthesise complex products out of basic substrates via cleavage of ATP)
Enzyme: a neoclassical, Greek artificial word ενζυμου, énzymon, derived from εν-, en- (in-) and ζυμη, zýmé (yeast, sourdough, archaic)
Ferments: comes from the Latin fermentum (ferments, sourdough)
There are six classes in which all enzymes are classified according to the particular reaction they catalyse:
• Oxidoreductases (catalyse redox reactions)
• Transferases (transfer functional groups among substrates)
• Hydrolases (cleave bonds via addition of water)
• Lyases/Synthases (cleave or synthesise complex products out of basic substrates without cleavage of ATP)
• Isomerases (transform chemical isomers)
• Ligases/Synthetases (cleave or synthesise complex products out of basic substrates via cleavage of ATP)
Analysecertificaten
Type analysis
Activity | ≥100 000 U/mg |