Application | Comment | Organism |
---|---|---|
biotechnology | preservation of ChABC activity during release by immobilizing ChABC in chitosan nerve conduits and encapsulating ChABC in poly(DL-lactic acid) microspheres using an appropriate stabilizer. Immobilizing ChABC in nerve conduitss markedly improves its stability. The activity of ChABC that is immobilized in chitosan nerve conduits by ionic bonding is 0.07 U/mg. 48% of this activity is retained at 48 h after immobilization. Poly(DL-lactic acid) microspheres, fabricated by the double emulsion method, are applied as carriers in the controlled release of ChABC. Stabilizers, including nanogold of 10 nm, polylysine of Mw 500-2000 and polylysine of Mw 20000-30000, are added to microspheres to maintain the activity of ChABC. Polylysine stabilizes ChABC most effectively. The ChABC activity is 0.0162 U/ml after seven days of release | Proteus vulgaris |
medicine | preservation of ChABC activity during release by immobilizing ChABC in chitosan nerve conduits and encapsulating ChABC in poly(DL-lactic acid) microspheres using an appropriate stabilizer. Immobilizing ChABC in nerve conduitss markedly improves its stability. The activity of ChABC that is immobilized in chitosan nerve conduits by ionic bonding is 0.07 U/mg. 48% of this activity is retained at 48 h after immobilization. Poly(DL-lactic acid) microspheres, fabricated by the double emulsion method, are applied as carriers in the controlled release of ChABC. Stabilizers, including nanogold of 10 nm, polylysine of Mw 500-2000 and polylysine of Mw 20000-30000, are added to microspheres to maintain the activity of ChABC. Polylysine stabilizes ChABC most effectively. The ChABC activity is 0.0162 U/ml after seven days of release | Proteus vulgaris |
Organism | UniProt | Comment | Textmining |
---|---|---|---|
Proteus vulgaris | - |
- |
- |
Source Tissue | Comment | Organism | Textmining |
---|---|---|---|
commercial preparation | - |
Proteus vulgaris | - |