Use of Target-Displaying Magnetized Yeast in Screening mRNA-Display Peptide Libraries to Identify Ligands

IF 3.784 3区化学 Q1 Chemistry ACS Combinatorial Science Pub Date : 2020-10-22 DOI:10.1021/acscombsci.0c00171

Kaitlyn Bacon, John Bowen, Hannah Reese, Balaji M. Rao*, Stefano Menegatti*

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引用次数: 2

Abstract

This work presents the first use of yeast-displayed protein targets for screening mRNA-display libraries of cyclic and linear peptides. The WW domains of Yes-Associated Protein 1 (WW-YAP) and mitochondrial import receptor subunit TOM22 were adopted as protein targets. Yeast cells displaying WW-YAP or TOM22 were magnetized with iron oxide nanoparticles to enable the isolation of target-binding mRNA-peptide fusions. Equilibrium adsorption studies were conducted to estimate the binding affinity (K_D) of select WW-YAP-binding peptides: K_D values of 37 and 4 μM were obtained for cyclo[M-AFRLC-K] and its linear cognate, and 40 and 3 μM for cyclo[M-LDFVNHRSRG-K] and its linear cognate, respectively. TOM22-binding peptide cyclo[M-PELNRAI-K] was conjugated to magnetic beads and incubated with yeast cells expressing TOM22 and luciferase. A luciferase-based assay showed a 4.5-fold higher binding of TOM22⁺ yeast compared to control cells. This work demonstrates that integrating mRNA- and yeast-display accelerates the discovery of peptide ligands.

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利用目标显示磁化酵母筛选mrna显示肽库以鉴定配体

这项工作提出了首次使用酵母显示蛋白靶点筛选环状和线性肽的mrna显示文库。研究以yesassociated Protein 1 (WW- yap)的WW结构域和线粒体输入受体亚基TOM22为蛋白靶点。用氧化铁纳米颗粒磁化显示WW-YAP或TOM22的酵母细胞，以分离目标结合的mrna -肽融合物。通过平衡吸附研究估算了ww - yap结合肽的结合亲和度(KD): cyclo[M-AFRLC-K]及其线性同源肽的KD分别为37 μM和4 μM, cyclo[M-LDFVNHRSRG-K]及其线性同源肽的KD分别为40 μM和3 μM。将TOM22结合肽环[M-PELNRAI-K]偶联到磁珠上，与表达TOM22和荧光素酶的酵母细胞孵育。基于荧光素酶的分析显示，与对照细胞相比，TOM22+酵母的结合率高4.5倍。这项工作表明，整合mRNA和酵母展示加速了肽配体的发现。

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ACS Combinatorial Science CHEMISTRY, APPLIED-CHEMISTRY, MEDICINAL

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审稿时长

1 months

期刊介绍： The Journal of Combinatorial Chemistry has been relaunched as ACS Combinatorial Science under the leadership of new Editor-in-Chief M.G. Finn of The Scripps Research Institute. The journal features an expanded scope and will build upon the legacy of the Journal of Combinatorial Chemistry, a highly cited leader in the field.