From Llama to Nanobody: A Streamlined Workflow for the Generation of Functionalised VHHs.

IF 1 Q3 BIOLOGY

Bio-protocol Pub Date : 2024-03-20 DOI:10.21769/BioProtoc.4962

Lauren E-A Eyssen, Siva Ramadurai, Sahar Abdelkarim, Imogen Buckle, Katy Cornish, Hong Lin, A K Jones, Gary J Stephens, Raymond J Owens

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Abstract

Nanobodies are recombinant antigen-specific single domain antibodies (VHHs) derived from the heavy chain-only subset of camelid immunoglobulins. Their small molecular size, facile expression, high affinity, and stability have combined to make them unique targeting reagents with numerous applications in the biomedical sciences. From our work in producing nanobodies to over sixty different proteins, we present a standardised workflow for nanobody discovery from llama immunisation, library building, panning, and small-scale expression for prioritisation of binding clones. In addition, we introduce our suites of mammalian and bacterial vectors, which can be used to functionalise selected nanobodies for various applications such as in imaging and purification. Key features • Standardise the process of building nanobody libraries and finding nanobody binders so that it can be repeated in any lab with reasonable equipment. • Introduce two suites of vectors to functionalise nanobodies for production in either bacterial or mammalian cells.

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从骆驼到纳米抗体：生成功能化 VHHs 的简化工作流程。

纳米抗体是一种重组抗原特异性单结构域抗体（VHHs），来源于驼科动物免疫球蛋白的纯重链亚群。纳米抗体分子小、易于表达、亲和力强且稳定，因此成为生物医学领域应用广泛的独特靶向试剂。从我们为六十多种不同蛋白质生产纳米抗体的工作中，我们介绍了纳米抗体发现的标准化工作流程，包括骆马免疫、文库构建、筛选和小规模表达，以确定结合克隆的优先级。此外，我们还介绍了哺乳动物和细菌载体套件，可用于对选定的纳米抗体进行功能化，以满足成像和纯化等各种应用的需要。主要特点 - 将构建纳米抗体库和寻找纳米抗体结合体的过程标准化，使其可以在任何拥有合理设备的实验室中重复进行。- 介绍两套载体，用于在细菌或哺乳动物细胞中生产功能化纳米抗体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Bio-protocol

CiteScore

1.50

自引率

0.00%

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