方法采用逆相蒸发法制备司盘阳离子脂质体。
METHODS Span-cationic liposomes were prepared by reverse phase evaporation method.
阳离子脂质体的毒性主要来自于小分子阳离子脂质分子。
Cytotoxicity of cationic liposome is mainly engendered by cationic lipid.
阳离子脂质体能促进AS - ODN的反义抑制作用。
Cationic liposome can enhance AS ODN antisense inhibitory effect.
结论可以利用阳离子脂质体来提高重组腺病毒的转染效率。
CONCLUSION Lipofectamine may be used as a tool to enhance the efficacy of transfection with recombinant adenovirus.
目的研究阳离子脂质体膜的组分对细胞摄取和基因转染的影响。
OBJECTIVE To study the effect of the lipid compositions on cellular uptake and gene transfection mediated by cationic liposomes.
先将环氧合酶基因导入质粒阳离子脂质体复合物,再通过静脉给入。
He described the technique to put this gene inside plasmid cationic liposome complexes and then deliver it intravenously.
综述近年来阳离子脂质体在基因转染中的应用及其相关材料和制备技术。
The application of cationic liposomes in gene transfection was introduced and the recent advances in development of cationic liposomal materials and preparation technologies were summarized.
目的:考察不同脂质体材料对阳离子脂质体细胞转染率和脂质体膜流动性的影响。
Objective: To investigate the influences of different lipids on cellular delivery and fluidity of liposome membrane of cationic liposome.
阳离子脂质体法转化COS - 7细胞并经免疫细胞化学染色检测重组体的表达。
It was then transformed into the COS-7 cells by Lipofectin Reagent and its expression was detected by immunocytochemical staining.
本发明所要解决的技术问题是提供一种转染效率高且具有肿瘤血管靶向性的阳离子脂质体。
The invention aims at solving the technical problem of proving a cationic liposome with high transfection efficiency and tumor vascular targeting.
近年来,许多阳离子脂质体、阳离子多肽及阳离子聚合物被用作非病毒类的基因输送载体。
In recent years, many kinds of cationic lipids, oligopeptides and polymers have been developed as non-viral gene delivery materials.
结论TMCVAPL具有阳离子脂质体的优势,可延长角膜滞留时间,并具有良好的生物相容性,值得进一步研究。
Conclusion TMC60coated VAPL has advantages of cationic liposomes in extending the corneal retention time with promising biocompatibility, which deserves further study.
结论TMCVAPL具有阳离子脂质体的优势,可延长角膜滞留时间,并具有良好的生物相容性,值得进一步研究。
Conclusion TMC60coated VAPL has advantages of cationic liposomes in extending the corneal retention time with promising biocompatibility, which deserves further study.
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