Quantitative Screening of Yeast Surface‐Displayed Polypeptide Libraries by Magnetic Bead Capture

生物素化 突变体 有孔小珠 链霉亲和素 高通量筛选 磁珠 单元格排序 免疫磁选 化学 肽库 磁选 酵母 分类 生物物理学 色谱法 细胞 生物素 材料科学 生物 计算机科学 生物化学 冶金 程序设计语言 复合材料 基因 肽序列
作者
Yik A. Yeung,K. Dane Wittrup
出处
期刊:Biotechnology Progress [American Chemical Society]
卷期号:18 (2): 212-220 被引量:84
标识
DOI:10.1021/bp010186l
摘要

Abstract Magnetic bead capture is demonstrated here to be a feasible alternative for quantitative screening of favorable mutants from a cell‐displayed polypeptide library. Flow cytometric sorting with fluorescent probes has been employed previously for high throughput screening for either novel binders or improved mutants. However, many laboratories do not have ready access to this technology as a result of the limited availability and high cost of cytometers, restricting the use of cell‐displayed libraries. Using streptavidin‐coated magnetic beads and biotinylated ligands, an alternative approach to cell‐based library screening for improved mutants was developed. Magnetic bead capture probability of labeled cells is shown to be closely correlated with the surface ligand density. A single‐pass enrichment ratio of 9400 ± 1800‐fold, at the expense of 85 ± 6% binder losses, is achieved from screening a library that contains one antibody‐displaying cell (binder) in 1.1 × 10 5 nondisplaying cells. Additionally, kinetic screening for an initial high affinity to low affinity (7.7‐fold lower) mutant ratio of 1:95,000, the magnetic bead capture method attains a single‐pass enrichment ratio of 600 ± 200‐fold with a 75 ± 24% probability of loss for the higher affinity mutant. The observed high loss probabilities can be straightforwardly compensated for by library oversampling, given the inherently parallel nature of the screen. Overall, these results demonstrate that magnetic beads are capable of quantitatively screening for novel binders and improved mutants. The described methods are directly analogous to procedures in common use for phage display and should lower the barriers to entry for use of cell surface display libraries.
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