候鸟导航:量子磁罗盘传感器

Q3 Medicine

Neuroforum Pub Date : 2021-07-01 DOI:10.1515/nf-2021-0005

Siu Ying Wong, Anders Frederiksen, Maja Hanić, Fabian Schuhmann, Gesa Grüning, P. Hore, I. Solov’yov

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引用次数: 12

摘要

候鸟利用地磁场进行数千公里精确导航的非凡能力，目前被认为是由一种名为隐色素的蛋白质内部的自由基对反应引起的。在本文中，我们解释了基对机制的量子力学基础，以及为什么它是目前罗盘磁接受的主导理论。我们还简要介绍了用于研究隐花色素机制的两种重要的计算模拟技术:自旋动力学和分子动力学。最后，我们概述了鸟类隐色素量子力学过程的研究现状和描述它们的计算模型。

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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Navigation of migratory songbirds: a quantum magnetic compass sensor

Abstract The remarkable ability of migratory birds to navigate accurately using the geomagnetic field for journeys of thousands of kilometres is currently thought to arise from radical pair reactions inside a protein called cryptochrome. In this article, we explain the quantum mechanical basis of the radical pair mechanism and why it is currently the dominant theory of compass magnetoreception. We also provide a brief account of two important computational simulation techniques that are used to study the mechanism in cryptochrome: spin dynamics and molecular dynamics. At the end, we provide an overview of current research on quantum mechanical processes in avian cryptochromes and the computational models for describing them.

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来源期刊

Neuroforum NEUROSCIENCES-

CiteScore

1.70

自引率

0.00%

发文量

期刊介绍： Neuroforum publishes invited review articles from all areas in neuroscience. Readership includes besides basic and medical neuroscientists also journalists, practicing physicians, school teachers and students. Neuroforum reports on all topics in neuroscience – from molecules to the neuronal networks, from synapses to bioethics.