反胶束萃取是一种新型的生物分子分离技术。
The technology of reverse micelles is a kind of new separation method for biological molecule .
研究了AOT/异辛烷反胶束体系萃取植物油和蛋白质的反萃工艺。
The process of the backward extraction using AOT/isooctane reverse micelles system for the simultaneous extraction of oil and protein from soybean have been studied.
结果表明:酶在反胶束体系中表现出“超活性” ,且作用于胶束膜。
It indicated that enzyme showed "superactivity" and acted on the membrane of reverse micelles.
结果表明:反胶束体系与水相中的单宁酶,其光学行为存在很大差别。
The results showed that there was significant difference between tannase in RM and in bulk water.
综述了反胶束萃取氨基酸的研究进展,包括萃取机理、应用研究的进展。
The research progress on extraction of amino acids by reversed micelles was reviewed, including the extraction mechanism and the development of applied research.
本文对在反胶束中酶促合成短肽的进展进行了综述,并对其应用进行了展望。
This paper reviews the progress about short peptide synthesis catalysed by enzyme in reverse micelle and its prospects.
反胶束技术是一种新的生物技术,在萃取蛋白过程中能较好地保持蛋白的活性。
Reverse micelle is a new biological technology. The activity of protein can be retained during extraction.
综述了反胶束的理化性质及测定方法、影响因素,及其在药剂学领域的应用进展。
The physicochemical characterization and influential factors of reverse micelles as well as their applications in pharmaceutics are reviewed.
同时,基于反胶束技术开发了适用于连续CPE处理过程的新型CPE反萃取工艺。
Meanwhile, a new back extraction technology suitable for the continuous application of CPE was developed based on the reverse micelle phenomenon.
将回收的反胶束再次用于萃取试验,胰蛋白酶总萃取率达到19.8%,比活力纯化倍数为2.8。
The recycled reversed micelles were reused and the results show total extraction rate is 19.8% and trypsin specific activity is 2.8 times.
本文综述了近年来反胶束萃取蛋白质这一技术在基础理论研究、应用和过程开发三方面所取得的新进展。
The latest advances of protein extraction using reversed micelles are reviewed on fundamental research, application and process development.
本文选用聚氧乙烯醚类非离子表面活性剂,配合醇类助表面活性剂在非极性有机溶剂中形成了反胶束溶液。
In this paper, polyoxyethylene ethers nonionic surfactants were applied with cosurfactants to form reverse micelles in organic solvent.
反胶束体系有利于单宁酶的稳定,脂肪醇作为反应底物,其碳链的增长有利于单宁酶在反胶束中的稳定性。
RM was propitious to tannase stability and it was enhanced with the increase of alkyl alcohol moieties carbon length.
动力学分析表明,反应置于反胶束体系将不仅提高酶的催化速度而且提高转移酶活力对水解酶活力的选择性。
The results on a rational analysis of the reaction mechanisms showed that higher activity and higher ratio of transferase to hydrolase activity are favorable for use in reverse micelles system.
反胶束萃取技术具有条件温和,萃取效率高,成本低,溶剂可重复利用,不引起萃取物变性等优点,用于纯化生物物质前景广阔。
It has a promising profit that extraction of biological molecule by reversed micellar, for the more mild operational condition, higher extraction yield, lower cost and solvent recycling.
反胶束萃取技术具有条件温和,萃取效率高,成本低,溶剂可重复利用,不引起萃取物变性等优点,用于纯化生物物质前景广阔。
The use of reversed micelle in extraction of biological molecules has the advantages of mild operational conditions, high extraction efficiency, low cost and solvent recycling.
在此试验条件下,杏仁蛋白质总萃取率为70.3%。反胶束法萃取油脂的萃取率为79.4%,略低于正己烷浸提及水酶法提取杏仁油的油脂得率。
Under this condition, the protein extraction rate is 70.3%, the oil extraction rate is 79.4%, which is little lower than the traditional extraction technology and the enzymatic extraction method.
在此试验条件下,杏仁蛋白质总萃取率为70.3%。反胶束法萃取油脂的萃取率为79.4%,略低于正己烷浸提及水酶法提取杏仁油的油脂得率。
Under this condition, the protein extraction rate is 70.3%, the oil extraction rate is 79.4%, which is little lower than the traditional extraction technology and the enzymatic extraction method.
应用推荐