Fe (III) modified collagen fibers were used to immobilize catalase through the cross-linking of glutaraldehyde. The loading amount of catalase on the supporting matrix was 16.7 mg/g, and 35% enzymatic activity was remained. A series of experiments were conducted on free and immobilized catalase in order to investigate their optimal pH and temperature, and the thermal, storage and operation stability. Results suggest that the free and immobilized catalase prefer similar pH and temperature condition, which were pH 7.0 and 25 degrees C. It should be noted that the thermal stability of catalase was considerably improved after immobilization owing to the fact that the enzyme kept 30% of relative activity after incubation at 75 degrees C for 5 h. On the contrary, the free catalase was completely inactive. As for the storage stability, the immobilized catalase kept 88% of relative activity after stored at room temperature for 12 days while the free one was completely inactive under the same conditions. Moreover, the immobilized catalase preserved 57% of relative activity after being reused 26 times, exhibiting excellent operation stability. Consequently, this investigation suggests that collagen fiber can be used as excellent supporting matrix for the immobilization of catalase, and it is potential to be used for the immobilization of similar enzymes.
Catalase ; chemistry ; metabolism ; Collagen ; chemistry ; metabolism ; Enzymes, Immobilized ; chemistry ; metabolism ; Ferric Compounds ; chemistry

Objective:To summarize the nursing experience of medical rescue mission of Chinese manned spaceflight and space station astronauts returning to Dongfeng landing site, to analyze the characteristics of different mission stages of Shenzhou-12 manned spacecraft and Dongfeng landing site, and to take steps to implement effective medical rescue support of the space station missions.Methods:The relevant literature and reports at home and abroad were consulted, the nursing experience of previous medical rescue support tasks was summarized, and the corresponding clinical measures were put forward according to the orbit time of Shenzhou-12 and the complex terrain and climate of the main landing site.Results:Based on the existing experience, the rescue process had been further detailed, the emergency plan had been formulated, the clinical process in each plan had been refined, the clinical process in front of the cabin, in the carrier and in the evacuation process of nurses under different injury conditions had been formulated and improved, and the special training of nurses' own quality and nursing skills was carried out to improve the overall quality and combat ability of the nursing echelon.Conclusions:The improvement and refinement of clinical process in the medical rescue support task of the main landing site of Shenzhou-12 has provided a solid assurance for the successful completion of manned aerospace medical rescue support task.