极化介子和生物同手性的起源

N. Globus, R. Blandford, A. Fedynitch
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引用次数: 0

摘要

虽然生物学家还没有就生命的定义达成共识,但同手性——生物分子的特定分子手性——是一种只有生命才会产生的现象。揭开它的起源需要跨学科的研究,通过探索基础物理、化学、天体物理学和生物学。在这里,我们考虑在天体物理学和粒子物理学的背景下生物同手性的起源。弱力是自然界中起作用的基本力之一,是违反宇称的。在地球上,在地面上,我们的大部分宇宙辐射剂量来自于弱力衰变中形成的极化介子。我们讨论了磁极如何在几个不同的环境中在宇宙雨中传播,这些环境是寻找生命起源的主要目标。我们考虑了这种极化是如何导致一种手性优于另一种手性的生物偏好,并讨论了在其他世界寻找生命的意义。
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Polarized muons and the origin of biological homochirality
While biologists have not yet reached a consensus on the definition of life, homochirality - the specific molecular handedness of biomolecules - is a phenomenon only produced by life. The unraveling of its origin requires interdisciplinary research, by exploring fundamental physics, chemistry, astrophysics and biology. Here, we consider the origin of biological homochirality in the context of astrophysics and particle physics. The weak force, one of the fundamental forces operating in nature, is parity-violating. On Earth, at ground level, most of our cosmic radiation dose comes from polarized muons formed in a decay involving the weak force. We discuss how the magnetic polarization is transmitted in cosmic showers within several different environments which are prime targets in the search for the origin of life. We consider how this polarization could have induced a biological preference for one type of chirality over the other, and discuss the implications for the search of life in other worlds.
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