结论噬菌体抗体库技术是研制人源性单抗的有效途径。
Conclusion Phage surface display technology is a useful method to produce human monoclonal antibody against CEA.
结论:利用噬菌体抗体库技术筛选可得到与破伤风外毒素特异性结合的人抗破伤风类毒素基因工程抗体。
Conclusion: Human genetic engineering antibody, which is able to react specifically to tetanus toxin, is obtained through screening phage antibody library.
噬菌体抗体库技术是抗体基因文库技术和噬菌体表面展示技术相结合形成的一项新技术与方法,在生物科学领域极具潜力。
The phage antibody library technology is a novel method with many potential applications, consisting of antibody library and phage surface display technology.
结论利用噬菌体抗体库技术获得了人源性抗角蛋白单链抗体,为临床应用研究提供了具有更广阔应用前景的人源小分子抗体。
Conclusion Human anti-keratin scFv is obtained from a large phage antibody library, which will benefit to the application of anti-keratin antibody to clinical research.
利用组合库和噬菌体展示技术,我们证明半抗原特异性抗体确实存在有外围载体的某些遗迹。
By using combinatorial library and phage display technologies on a hapten-specific antibody we were able to demonstrate that a peripheral carrier imprint indeed exists.
建立杂交瘤单抗亲和层析纯化抗原、抗原体外致敏淋巴细胞和RT-PCR克隆人抗体基因及噬菌体呈现技术构建人源抗体库的策略。
Strategy was established for construction of repertoire antibody library with affinity chromatography purifying antigen, antigen immunizing human lymphocytes, RT-PCR and phage display technology.
噬菌体展示技术是一种制备高亲和力抗体的有力工具,抗体库技术则为筛选高亲和力抗体提供了良好的平台。
Phage displayed technology has become a powerful tool in preparing high affinity antibodies, and antibody library technology paves a way for obtaining high affinity antibodies.
采用多肽文库技术从噬菌体肽库中筛选抗体模拟小肽则是一种全新的导向治疗思路。
Screening mimic peptide of antibody from polypeptides library is a wholly new thought of targeted therapy, which has shown an obvious technics superiority.
通过噬菌体肽库技术分析抗体所识别的抗原表位。
The mAb epitope was also analyzed using peptide phage display technology.
通过噬菌体肽库技术分析抗体所识别的抗原表位。
The mAb epitope was also analyzed using peptide phage display technology.
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