A Rationally Designed Building Block of the Putative Magnetoreceptor MagR
Peilin Yang, Tiantian Cai, Lei Zhang, Daqi Yu, Zhen Guo, Yuebin Zhang, Guohui Li, Xin Zhang, Can Xie
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引用次数: 5
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Abstract
The ability of animals to perceive guidance cues from Earth's magnetic field for orientation and navigation has been supported by a wealth of behavioral experiments, yet the nature of this sensory modality remains fascinatingly unresolved and wide open for discovery. MagR has been proposed as a putative magnetoreceptor based on its intrinsic magnetism and its complexation with a previously suggested key protein in magnetosensing, cryptochrome, to form a rod-like polymer structure. Here, we report a rationally designed single-chain tetramer of MagR (SctMagR), serving as the building block of the hierarchical assembly of MagR polymer. The magnetic trapping experiment and direct magnetic measurement of SctMagR demonstrated the possibility of magnetization of nonmagnetic cells via overexpressing a single protein, which has great potential in various applications. SctMagR, as reported in this study, serves as a prototype of designed magnetic biomaterials inspired by animal magnetoreception. The features of SctMagR provide insights into the unresolved origin of the intrinsic magnetic moment, which is of considerable interest in both biology and physics. © 2022 Bioelectromagnetics Society.
合理设计的磁感受器MagR的组成部分
动物从地球磁场中感知方向和导航的能力已经得到了大量行为实验的支持,但这种感觉方式的本质仍然令人着迷地未得到解决,有待发现。MagR已被认为是一种假定的磁受体,基于其固有的磁性和与先前提出的磁感应关键蛋白隐花色素的络合,形成一种棒状聚合物结构。在这里,我们报告了一个合理设计的MagR单链四聚体(SctMagR),作为MagR聚合物分层组装的构建块。SctMagR的磁捕获实验和直接磁测量证明了通过过表达单一蛋白对非磁性细胞进行磁化的可能性,在各种应用中具有很大的潜力。SctMagR是一种受动物磁感受启发而设计的磁性生物材料原型。SctMagR的特性提供了对未解决的固有磁矩起源的见解,这在生物学和物理学中都是相当有趣的。©2022生物电磁学学会。
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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