Bangs Lab荧光磁性羧基聚合物:
磁性经典(MC目录代码)与磁性封装(ME目录代码)微球均采用将氧化铁晶体均匀分布于聚合物基质中的方式合成。封装型磁性微球表面经过包覆处理,可消除氧化铁分子产生的自发荧光;而经典款微球表面则会残留部分裸露的氧化铁。COMPEL微球(UMC目录代码)是具有高均匀度与完美球形的封装微球,其低自发荧光特性特别适用于微型化生物检测或分离实验。查阅完整荧光光谱请点击此处。
本品为浓度约1% (重量/体积) 的水相悬浮液,提供四种标准体积规格:1毫升、5毫升、10毫升及100毫升。
| CAT.# | PRODUCT NAME | SPEC RANGE | FLUORESCENT EX/EM(NM) | %MAGNETITE |
| MCDG001 | Fluorescent Classical Magnetic COOH,Dragon Green-0.9um | ~0.9um | 480/520 | ~60% |
| MEDG002 | Fluorescent Encapsulated Magnetic COOH, Dragon Green-~1.63um | ~1.63um | 480/520 | ~40% |
| MEFR002 | Fluorescent Encapsulated Magnetic COOH,Flash Red-~1.63um | ~1.63um | 660/690 | ~40% |
| MEGB002 | Fluorescent Encapsulated Magnetic COOH, Glacial Blue-~1.63um | ~1.63um | 360/450 | ~40% |
| MESY002 | Fluorescent Encapsulated Magnetic COOH, Suncoast Yellow-~1.63um | ~1.63um | 540/600 | ~40% |
| UMDG001 | COMPELTM Fluorescent Magnetic COOH,Dragon Green-3um | 2.50-3.50ur | 480/520 | ~10.0-12.5% |
| UMDG002 | COMPELTM Fluorescent Magnetic COOH,Dragon Green-6um | 5.50-6.50um | 480/520 | ~5.5-6.5% |
| UMDG003 | cOMPELTM Fluorescent Magnetic COOH,Drago Green-8um | n 750-8.50un | 480/520 | ~3.0-3.5% |
| UMEG001 | COMPELTM Fluorescent Magnetic COOH,Envy Green-3um | 2.50-3.50um | 525/565 | ~10.0-12.5% |
| UMFR001 | COMPELTM Fluorescent Magnetic COOH,Flash Red-3um | 2.50-3.50um | 660/690 | ~10.0-12.5% |
| UMFR002 | COMPELTM Fluorescent Magnetic COOH,Flash Red-6um | 5.50-6.50um | 660/690 | ~5.5-6.5% |
| UMFR003 | COMPELTM Fluorescent Magnetic COOH,Flash Red-8um | 7.50-8.50um | 660/690 | ~3.0-3.5% |
| UMGB001 | COMPELTM Fluorescent Magnetic COOH,Glacial Blue-3um | 2.50-3.50um | 360/450 | ~10.0-12.5% |
| UMGB002 | COMPELTM Fluorescent Magnetic COOH,Glacial Blue-6um | 5.50-6.50um | 360/450 | ~5.5-6.5% |
| UMGB003 | COMPELTM Fluorescent Magnetic COOH,Glacial Blue-8um | 7.50-8.50um | 360/450 | ~3.0-3.5% |
文献参考:
Hinds, K, Hill, J, Shapiro, E, Laukkanen, M, Alfonso C. Silva, Combs,…Dunbar, C (2003) Highly efficient endosomal labeling of progenitor and stem cells with large magnetic particles allows magnetic resonance imaging of single cells. Blood Aug 102 (3) 867-872
Shapiro, E M, Skrtic, S, Koretsky, AP (2005) Sizing it up: Cellular MRI using micron-sized iron oxide particles. Magn. Reson. Med., 53: 329–338
Rohani, R, de Chickera, SN, Willert, C, Chen, Y, Dekaban, G, Foster, P (2011) In Vivo Cellular MRI of Dendritic Cell Migration Using Micrometer-Sized Iron Oxide (MPIO) Particles Mol Imaging Biol 13: 679
Slotkin,J, Cahill, K, Tharin, S, Shapiro, EM (2207) Cellular Magnetic Resonance Imaging: Nanometer and Micrometer Size Particles for Noninvasive Cell Localization Neurotherapeutics, V4,3,P428-433
Tarulli E, Chaudhuri JD, Gretka V, Hoyles A, Morshead CM, Stanisz GJ. (2013) Effectiveness of micron-sized superparamagnetic iron oxide particles as markers for detection of migration of bone marrow-derived mesenchymal stromal cells in a stroke model. J Magn Reson Imaging.Jun;37(6):1409-18. (MCDG001, 0.9?m Dragon Green Magnetic Classical, 60% mag)
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