Engineered kin recognition specificities in the TraA cell surface receptor

The ISME Journal Pub Date : 2026-04-23 DOI:10.1093/ismejo/wrag102

Tingting Guo, Daniel Wall

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Abstract

Recognizing self-versus nonself is a crucial step in the development of multicellularity. The social bacterium Myxococcus xanthus is a tractable model organism for studying this transition from single-cell to multicellular life. The polymorphic cell-surface receptor TraA directs cooperative behaviors toward kin. TraA is a highly specific receptor, capable of recognizing other TraA proteins with identical or nearly identical sequences by homotypic binding, but the molecular basis of this specificity remains poorly understood. Here, we generated a targeted TraA mutant library comprising thousands of variants with substitutions at 10 predicted specificity-determining residues. Screening revealed variants with altered recognition profiles, often resulting in promiscuous and/or heterotypic TraA-TraA interactions. We further identified key residues that govern specificity, as substitutions at these positions rewired recognition outcomes. Finally, we propose an evolutionary model in which new TraA specificities arise through promiscuous intermediate states shaped by reward-punishment dynamics. Together, these findings demonstrate the malleability of TraA specificity and provide molecular and evolutionary insight into social recognition.

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TraA细胞表面受体的基因工程亲缘识别特异性

认识自我与非我是多细胞生物发展的关键一步。社会性细菌黄粘球菌是一种易于处理的模式生物，用于研究从单细胞到多细胞生命的转变。多态的细胞表面受体TraA指导对亲属的合作行为。TraA是一种高度特异性的受体，能够通过同型结合识别具有相同或几乎相同序列的其他TraA蛋白，但这种特异性的分子基础尚不清楚。在这里，我们生成了一个目标TraA突变文库，包含数千个变体，在10个预测的特异性决定残基上进行替换。筛选揭示了具有改变识别谱的变异，通常导致TraA-TraA的混杂和/或异型相互作用。我们进一步确定了控制特异性的关键残基，因为这些位置的替换重新连接了识别结果。最后，我们提出了一个进化模型，在这个模型中，新的TraA特异性通过奖惩动态形成的混杂中间状态产生。总之，这些发现证明了TraA特异性的可塑性，并为社会识别提供了分子和进化的见解。

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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