Unlocking expanded flagellin perception through rational receptor engineering

Tianrun Li, Esteban Jarquin Bolanos, Danielle Stevens, Hanxu Sha, Daniil M Prigozhin, Gitta Coaker
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Abstract

The surface-localized receptor kinase FLS2 detects the flg22 epitope from bacterial flagella. FLS2 is conserved across land plants, but bacterial pathogens exhibit polymorphic flg22 epitopes. Most FLS2 homologs possess narrow perception ranges, but four with expanded perception ranges have been identified. Using diversity analyses, AlphaFold modeling, and amino acid properties, key residues enabling expanded recognition were mapped to FLS2's concave surface, interacting with the co-receptor and polymorphic flg22 residues. Synthetic biology enabled engineering of expanded recognition from QvFLS2 (Quercus variabilis) and FLS2XL (Vitis riparia) into homologs with canonical perception. Evolutionary analyses across three plant orders showed residues under positive selection aligning with those binding the co-receptor and flg22's C-terminus, suggesting more alleles with expanded perception exist. Our experimental data enabled the identification of specific receptor amino acid properties and AlphaFold3 metrics that facilitate predicting FLS2-flg22 recognition. This study provides a framework for rational receptor engineering to enhance pathogen restriction.
通过合理的受体工程解开鞭毛蛋白感知的大门
表面定位的受体激酶 FLS2 可检测细菌鞭毛的 flg22 表位。FLS2 在陆生植物中是保守的,但细菌病原体表现出多态的 flg22 表位。大多数 FLS2 同源物的感知范围较窄,但有四个同源物的感知范围有所扩大。利用多样性分析、AlphaFold 建模和氨基酸特性,将能够扩大识别范围的关键残基映射到 FLS2 的凹面上,与共受体和多态的 flg22 残基相互作用。合成生物学使 QvFLS2(柞树)和 FLS2XL(葡萄)的扩展识别工程成为具有典型感知的同源物。对三种植物进行的进化分析表明,正向选择下的残基与结合共受体和 flg22 的 C 端相一致,这表明存在更多具有扩展感知能力的等位基因。我们的实验数据确定了特定的受体氨基酸特性和 AlphaFold3 指标,有助于预测 FLS2-flg22 的识别。这项研究为合理的受体工程学提供了一个框架,以增强对病原体的限制。
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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