1) target-cell theory
靶-细胞理论
2) Target cells
靶细胞
1.
This paper discusses the transfer system and methods in gene therapy together with the selection of target cellsThe focus of discussion is on the application of gene therapy to the treatment of blood diseases
阐述基因治疗中的转移系统与转换方法,以及基因治疗的靶细胞选择,着重阐述基因治疗在血液病治疗中的应用。
2.
Objective To explore the target cells of SARS coronavirus infection in vivo and to provide the evidence of multi organ injuries produced by SARS coronavirus infection.
目的 研究体内SARS冠状病毒(SARS CV)感染的靶细胞 ,为SARS CV致多器官损伤寻找依据。
3.
In order to study the effect of HLA G1 on the recognition of effector target cells, laser scanning confocal microscopy (LSCM) and flow cytometry were used to analyse the expression and function of full length HLA G1 and the real time change of [Ca 2+ ] i (free intracellular.
为了研究HLA G对NK与靶细胞识别作用的影响机制 ,采用激光扫描共聚焦显微镜和流式细胞术对全长HLA G1的表达和功能进行了探讨 ,并对效靶识别过程中靶细胞 [Ca2 + ]i (胞内自由钙离子浓度 )进行了实时检测 。
3) target cell
靶细胞
1.
GM 803 ,Y 99 , L 929 , and Meth A tumor cell lines were used as target cells to investigate anticancerous activity of anthracene derivatives.
应用结晶紫染色法,以L929、GM803、MethA、Y99为靶细胞测蒽衍生物的杀伤活性。
2.
Objective To investigate the feasibility of using cardiac fibroblasts as gene target cell.
目的探索心肌成纤维细胞成为基因靶细胞的可行性。
3.
Aim To confirm that macrophage(MΦ) is one of the immune effective target cells of glycoconjugate and its glycan isolated from the fruit of Lycium Barbarum L.
目的确定巨噬细胞是枸杞糖缀合物和糖链免疫作用的靶细胞之一。
4) Cellular targeting
细胞靶向
1.
Cellular targeting and subcellular distribution of HER-2 targeting boron liposomes;
HER-2靶向硼脂质体的细胞靶向与细胞内分布研究
5) Target
[英]['tɑ:ɡɪt] [美]['tɑrgɪt]
靶细胞
1.
Gene therapy is defined as the introduction of genetic materials into cells to bring about a therapeutic ef-fect,the major stumbling block in the development of effective gene therapy is the delivery of the therapeutic gene to its target.
基因治疗是将遗传物质导入靶细胞以达到治疗疾病的目的,目前基因治疗研究中的主要障碍是如何将外源基因导入靶细胞。
补充资料:靶扫描和靶重建
靶扫描和靶重建
影像学术语。CT检查中,对扫描野(SFOV)中某一兴趣区扫描时行较大矩阵重建的方式称靶扫描。在扫描及影像重建完成后,对显示野(DFOV)中某一兴趣区重新进行较大矩阵重建成像的方式称靶重建。前者是直接利用扫描野中兴趣区的较大量的原始数据进行影像重建,后者则是利用常规扫描中采集的原始数据进行兴趣区的影像重建。两种技术实现的基本前提都是一次扫描所获得的投影测量数据必须能够满足兴趣区影像重建矩阵所需的信息量。靶扫描在扫描前预先设定兴趣区,成像后不储存非兴趣区原始数据;靶重建则需储存层面扫描所获得的全部原始数据,占用较多的磁盘空间,但以后可在图像中任选兴趣区进行局部重建。两种技术在成像效果(空间分辨率,对比分辨率)上是一致的,这与单纯的局部图像放大(zoom)不同。后者没有增加兴趣区内像素数量,虽使影像扩大但分辨率并未提高,清晰度反有下降。
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