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 present paper Outlines the phage display technology and its applications in biotechnology.
本文将介绍噬菌体呈现技术及其在生物科技上的应用。
This review focuses on the application of phage display technology in the prevention, diagnosis and treatment of parasitic diseases.
本文介绍丝状噬菌体展示技术及其在寄生虫病预防、诊断和治疗中的应用。
Until recently, the only source for information on the impact of phage display technology on drug discovery research has been laboratory manuals.
直到最近,关于噬菌体的影响的讯息的唯一的来源展示关于药发现研究的技术是实验手册。
The Phage display technology(PDT) is technology that expresses exogenic polypeptide with shell protein of phage by inserting the exogenic DNA into the shell gene.
噬菌体展示技术是一种有效的药物靶点筛选工具,可用其筛选中药的药物靶点蛋白。
Strategy was established for construction of repertoire antibody library with affinity chromatography purifying antigen, antigen immunizing human lymphocytes, RT-PCR and phage display technology.
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。
The phage antibody library technology is a novel method with many potential applications, consisting of antibody library and phage surface display technology.
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 surface display technology is widely used in disease diagnosis, specific antibody, and protein medicine production.
噬菌体表面展示技术广泛应用于疾病诊断、特异性抗体及蛋白药物生产等。
Conclusion Phage surface display technology is a useful method to produce human monoclonal antibody against CEA.
结论噬菌体抗体库技术是研制人源性单抗的有效途径。
Studying intermolecular interaction (especially for proteins) has been heavily relied on the combination of the phage display system and screening technology.
使用噬菌体呈现系统配合筛选技术,改变了传统研究分子间(特别是蛋白质)相互作用之方法。
Studying intermolecular interaction (especially for proteins) has been heavily relied on the combination of the phage display system and screening technology.
使用噬菌体呈现系统配合筛选技术,改变了传统研究分子间(特别是蛋白质)相互作用之方法。
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