1)  Thermo-sensitive
温敏基因
2)  thermosensitive
温敏
1.
Cisplatin-loaded thermosensitive micelle was prepared and its characters and cytotoxicity were evaluated at different temperature in vitro.
制备了顺铂温敏载药纳米粒子,表征其相关性质并考察不同温度下对体外肿瘤细胞的生长抑制作用。
2.
Objsctive To prepare cisplatin-loaded thermosensitive nanoparticle and evaluate its characters and cytotoxicity of different temperature in vitro.
目的构建顺铂温敏纳米颗粒,表征其相关性质及不同温度下对肿瘤细胞生长抑制率。
3.
The purpose of this work is to prepare nanoparticles with thermosensitive or bio-adhesive properties for drug delivery.
通过在温敏聚合物PNIPAAm中引入聚电解质形成共聚物,可以赋予其对温度和pH值的双重响应性。
3)  Thermo-sensitive
温敏
1.
Physical and in vitro release properties of methylcellulose-based thermo-sensitive hydrogels;
甲基纤维素温敏水凝胶的凝固及体外释药特性
2.
Fast gelable and thermo-sensitive chitosan/glycerphosphate hygrogel and drug release behavior;
快速凝胶化温敏型壳聚糖/甘油磷酸盐凝胶及释药性能
4)  Temperature-sensitive
温敏
1.
Synthesis and Properties of Temperature-sensitive Poly (N-isopropylacrylamide/acrylamide) Nanogel;
温敏型聚(N-异丙基丙烯酰胺/丙烯酰胺)纳米凝胶的制备及其性质研究
2.
The environmental sensitive properties of temperature-sensitive and pH-sensitive hydrogels are reviewed and the mechanisms of such hydrogels are discussed.
评述了温敏水凝胶、pH 敏感水凝胶的环境敏感特性并探讨了环境敏感的机理。
5)  thermothickening
温敏增稠
1.
These graft copolymers had thermothickening characteristic,i.
采用流变仪与毛细管粘度计研究了热缔合接枝聚合物———水解聚丙烯酰胺-g-聚(N-异丙基丙烯酰胺)(HPAM-g-PNIPAm)盐水溶液流变特性,测定了外加盐浓度、聚合物浓度、剪切速率及接枝率和接枝链长对HPAM-g-PNIPAm温敏增稠效果的影响。
6)  Thermosensitive
温敏性
1.
Recent Advances in Poloxamer 407 Thermosensitive in-situ Gel;
Poloxamer 407温敏性即型凝胶的制备和应用进展
2.
Research on Nano-micelles Used as Drug Carriers Based on Thermosensitive Amphiphilic Block Copolymers;
基于温敏性双亲嵌段共聚物的纳米胶束作为药物载体的研究
3.
The chitosan(CS)-based injectable and thermosensitive hydrogels are injectable liquid at low temperature and transform to semisolid hydrogels at body temperature.
本文介绍了壳聚糖基可注射型温敏性水凝胶的种类、特性、机制和应用等方面的研究进展。
参考词条
补充资料:温度敏感基因
分子式:
CAS号:

性质:指某基因所处的温度低于一定范围时(如25~35℃)基因是不表达的。在基因工程中,对温度敏感的基因已被用于表达某些外源的目的基因,这样可以防止对宿主有害的外源基因的表达。在较低的温度中宿主可以正常生长,当宿主达到足够的细胞数量时,将温度变高,则目的外源基因就可大量表达。也有低温敏感基因,但在实践中应用极少,此处从略。

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