| Description : |
NTRs: Are flavoenzymes that catalyze the NAD(P)H-dependent reduction of the nitro groups on nitroaromatic and nitroheterocyclic compounds to hydroxylamino and/or amino derivatives. They are widely used in organic synthesis of aromatic hydroxylamine and aromatic amine, tumor therapy, biological detection and the degradation of environmental pollutants. |
| Applications : |
1. Normally, the reaction system should include substrate, buffer solution (optimum reaction pH), coenzymes (NAD(H) or NADP(H)), coenzyme regeneration system(e.g. glucose and glucose dehydrogenase) and NTR.
2. All kinds of NTRs corresponding to various optimum reaction conditions should be studied individually.
3. NTR should be added last into reaction system with optimum reaction pH and temperature. |
| Notes : |
Never contact with extreme conditions such as: high temperature, high/low pH and high concentration organic solvent. |
| Storage : |
Keep 2 years below -20 centigrade. |
| Advantages : |
1. Broad substrate spectrum.
2. High conversion.
3. Less by-products.
4. Mild reaction conditions.
5. Environmentally friendly. |
