在免疫磁性分离过程中去除大量正常细胞,然后将标本作进一步处理,打碎一些细胞团。
An immunomagnetic separation process removes a large number of the normal cells, and the specimen is further processed to break up some of the clusters.
实验结果表明,纤维素磁性微球作为性能优良的新型磁性载体,更适于目的蛋白的免疫磁性分离。
The result suggested that MCMS were much more suitable for purification of aim proteins than other microspheres and showed an extensive application foreground for immunomagnetic separation.
然后通过免疫磁性细胞分选技术分离出播散的肿瘤细胞并进行培养,对培养成活的肿瘤细胞在鉴定来源的同时进行生物学活性检测,从细胞学角度判断入血肿瘤细胞形成转移灶的能力。
Secondly, we separated the tumor cells in blood samples by IMS and cultured it carefully, activities of the tumor cells has been tested to confirm their ability to form a successful metastasis.
在传统的放射免疫分析的基础上,以磁性微粒子为二抗分离剂和固相一抗为结合反应剂,建立了两种快速、超灵敏、简便的血清及其它样品中雌三醇含量的分析方法。
In the present work, using the magnetic microparticle, two ultra-sensitive and simple methods based on the traditional radio-immunoassay for the determination of estriol (E3) in serum were developed.
因此,自70年代以来,磁性微球作为一种新型的功能材料,在细胞分离、蛋白质提纯、免疫测定和靶向药物等诸多领域有着广阔的应用前景。
Therefore, since 1970's, as a new type of functional material, it has gained broad applications in cell separation, protein purification, immunoassays, immobilized enzyme and target delivery of drug.
因此,自70年代以来,磁性微球作为一种新型的功能材料,在细胞分离、蛋白质提纯、免疫测定和靶向药物等诸多领域有着广阔的应用前景。
Therefore, since 1970's, as a new type of functional material, it has gained broad applications in cell separation, protein purification, immunoassays, immobilized enzyme and target delivery of drug.
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