1) Oleate vesicles
油酸囊泡
2) vesicle
[英]['vesɪkl] [美]['vɛsɪkḷ]
囊泡
1.
Spontaneous Vesicle Formation of Polymeric Borate Ester Surfactant;
聚硼酸酯表面活性剂囊泡自发形成
2.
Mixed N, N-dilauryl Chitosan/Cholesterol Monolayer and Corresponding Vesicle Property;
N,N-双十二烷基壳聚糖/胆固醇混合单分子膜及自组装囊泡性质
3.
Aerobic Oxidation of Thiophenol Catalytzed by Co(Ⅱ) Tetrakis(n-propyl-oxycarbonyl)phthalocyanine in Bilayer Membrane of Vesicle;
囊泡双层膜中4,44"4-四(正丙氧基羰基)酞菁钴(Ⅱ)催化分子氧氧化巯基苯的反应
3) Vesicles
囊泡
1.
Self-assembly of Amphiphilic Linear-hyperbranched Multi-arm Copolymer into Cationic Vesicles;
两亲性线性-超支化多臂共聚物在水溶液中自组装为阳离子囊泡的研究
2.
Study on the release efficiency of vesicles spontaneously-formed from PTA/AOT as drug delivery;
PTA/AOT自发形成囊泡作为药物载体的缓释性研究
3.
Study on vesicles formed from the complex system of cation surfactant PTA and anionic surfactant SDS entrapment aspirin;
复配体系自发形成囊泡包封药物阿司匹林的研究
4) Vesicle
[英]['vesɪkl] [美]['vɛsɪkḷ]
泡囊
1.
Preparation of Vesicles from Lamellar Liquid Crystal in Triton X-100/n-C_(10)H_(21_OH/H_2O System;
TritonX-100/正癸醇/水层状液晶制备泡囊
2.
Results showed that the long-term nitrogen (N) fertilization treatment significantly reduced mycorrhizal colonization percentage (MCP), arbuscule colonization percentage (ACP), number of vesicle (NV) and entry points (NE) pe.
结果表明长期定位施氮(N)肥显著降低了AM真菌对寄主植物的侵染率(MCP)、丛枝着生率(ACP)、单位根长泡囊数(NV)和侵入点数(NE)。
5) Niosomes
泡囊
1.
Study on Pharmacokinetics and Tissue Distribution of Carboplatin Niosomes;
肺靶向卡铂泡囊的药代动力学和体内分布研究
2.
Preparation and characterization of docetaxel niosomes
多西紫杉醇冻干泡囊的制备及其性质考察
3.
Preparation of CDDP incorporated stealth niosomes and their properties after conjugation with BSA
顺铂隐形泡囊的研制及表面连接蛋白质前后的性质比较
6) niosomes
囊泡
1.
Preparation of methotrexate niosomes and release of methotrexate from the niosomes in vitro;
甲氨蝶呤囊泡的制备和体外释放性能研究
2.
Stealth PEG-PHDCA niosomes: effects of chain length of PEG on niosomes in vitro complement consumption and phagocytic uptake;
隐形PEG-PHDCA纳米囊泡:PEG的相对分子质量对体外补体消耗和巨噬细胞吞噬的影响(英文)
补充资料:基质囊泡
分子式:
CAS号:
性质:又称基质囊泡或基质小泡。是由正在增殖的软骨细胞或骨细胞浆膜形成的独立于细胞外的细胞器。基质器的膜含有丰富的磷脂,具有富集钙离子生成无定形磷酸钙并进一步转化磷灰石的作用。胚胎骨、软骨及牙本质中的矿物都是通过基质器在细胞外形成的。
CAS号:
性质:又称基质囊泡或基质小泡。是由正在增殖的软骨细胞或骨细胞浆膜形成的独立于细胞外的细胞器。基质器的膜含有丰富的磷脂,具有富集钙离子生成无定形磷酸钙并进一步转化磷灰石的作用。胚胎骨、软骨及牙本质中的矿物都是通过基质器在细胞外形成的。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条