Yajie Zhou, Tianyang Tong, Mengke Wei, Peng Zhang, Fan Fei, Xiujuan Zhou, Zhen Guo, Jing Zhang, Huangtao Xu, Lei Zhang, Shun Wang, Junfeng Wang, Tiantian Cai, Xin Zhang, Can Xie. 2023. Towards magnetism in pigeon MagR: Iron- and iron-sulfur binding work indispensably and synergistically. Zoological Research, 44(1): 142-152. DOI: 10.24272/j.issn.2095-8137.2022.423
Citation: Yajie Zhou, Tianyang Tong, Mengke Wei, Peng Zhang, Fan Fei, Xiujuan Zhou, Zhen Guo, Jing Zhang, Huangtao Xu, Lei Zhang, Shun Wang, Junfeng Wang, Tiantian Cai, Xin Zhang, Can Xie. 2023. Towards magnetism in pigeon MagR: Iron- and iron-sulfur binding work indispensably and synergistically. Zoological Research, 44(1): 142-152. DOI: 10.24272/j.issn.2095-8137.2022.423

Towards magnetism in pigeon MagR: Iron- and iron-sulfur binding work indispensably and synergistically

  • The ability to navigate long distances is essential for many animals to locate shelter, food, and breeding grounds. Magnetic sense has evolved in various migratory and homing species to orient them based on the geomagnetic field. A highly conserved iron-sulfur cluster assembly protein IscA is proposed as an animal magnetoreceptor (MagR). Iron-sulfur cluster binding is also suggested to play an essential role in MagR magnetism and is thus critical in animal magnetoreception. In the current study, we provide evidence for distinct iron binding and iron-sulfur cluster binding in MagR in pigeons, an avian species that relies on the geomagnetic field for navigation and homing. Pigeon MagR showed significantly higher total iron content from both iron- and iron-sulfur binding. Y65 in pigeon MagR was shown to directly mediate mononuclear iron binding, and its mutation abolished iron-binding capacity of the protein. Surprisingly, both iron binding and iron-sulfur binding demonstrated synergistic effects, and thus appear to be integral and indispensable to pigeon MagR magnetism. These results not only extend our current understanding of the origin and complexity of MagR magnetism, but also imply a possible molecular explanation for the huge diversity in animal magnetoreception.
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