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一种新型辅助噬菌体和噬菌粒载体系统可改善抗体Fab片段的病毒展示,并避免无插入病毒粒子的增殖。

A new helper phage and phagemid vector system improves viral display of antibody Fab fragments and avoids propagation of insert-less virions.

作者信息

Soltes Glenn, Barker Heather, Marmai Kristine, Pun Elaine, Yuen Amy, Wiersma Erik J

机构信息

Cangene Corporation, 3403 American Drive, L4V 1T4, Mississauga, Ontario, Canada.

出版信息

J Immunol Methods. 2003 Mar 1;274(1-2):233-44. doi: 10.1016/s0022-1759(02)00294-6.

Abstract

Phage display technology (PDT) is a powerful method for isolating functional gene products such as antigen-specific monoclonal antibodies (mAbs). To improve the effectiveness of PDT, we sought to optimize display of Fab-g3p (antibody fragment fused with viral gene 3 protein) on phagemid virions and to optimize the yield of such phage. To do so, we constructed a novel helper phage, Phaberge, having a conditional deficiency in g3p production. Unlike most other published g3p-deficient helper phage, Phaberge is produced at high levels, 10(11) PFU/ml. As compared to g3p-sufficient helper phage, Phaberge caused a 5-20-fold increase in display level. Another novel feature is that Phaberge only packages insert-containing, not insert-less, phagemid into infectious virions. This should prove useful in preserving quality of phagemid libraries during propagation. In addition, other parameters were also found to affect production of phagemid virions. In particular, the choice of bacterial host cell, phagemid construct and growth temperature had a substantial impact on display levels, but generally no effect on number of phagemid virions produced. In short, we have established a set of parameters that improve production and quality of phagemid virions which we expect to facilitate the isolation of mAbs or other gene products by PDT.

摘要

噬菌体展示技术(PDT)是一种用于分离功能性基因产物(如抗原特异性单克隆抗体(mAb))的强大方法。为了提高PDT的有效性,我们试图优化噬菌体颗粒上Fab-g3p(与病毒基因3蛋白融合的抗体片段)的展示,并优化此类噬菌体的产量。为此,我们构建了一种新型辅助噬菌体Phaberge,其在g3p产生方面存在条件性缺陷。与大多数其他已发表的g3p缺陷型辅助噬菌体不同,Phaberge的产量很高,可达10(11) PFU/ml。与g3p充足的辅助噬菌体相比,Phaberge使展示水平提高了5至20倍。另一个新特点是,Phaberge仅将含插入片段而非无插入片段的噬菌粒包装到感染性病毒颗粒中。这在保存噬菌粒文库在传代过程中的质量方面应该是有用的。此外,还发现其他参数也会影响噬菌粒病毒颗粒的产生。特别是,细菌宿主细胞的选择、噬菌粒构建体和生长温度对展示水平有重大影响,但通常对产生的噬菌粒病毒颗粒数量没有影响。简而言之,我们已经建立了一组参数,可提高噬菌粒病毒颗粒的产量和质量,我们期望这将有助于通过PDT分离mAb或其他基因产物。

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