Three-dimensional complex architectures observed in shock processed amino acid mixtures

Surendra V. Singh, Jayaram Vishakantaiah, J. K. Meka, M. Muruganantham, Vijay Thiruvenkatam, Vijayan Sivaprahasam, B. N. Rajasekhar, A. Bhardwaj, Nigel J. Mason, B. Sivaraman
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引用次数: 2

Abstract

Abstract Asteroid and cometary impacts have been considered one of the possible routes for exogenous delivery of organics to the early Earth. It is well established that amino acids can be synthesized due to impact-driven shock processesing of simple molecules and that amino acids can survive the extreme conditions of impact events. In the present study, we simulate impact-induced shock conditions utilizing a shock tube that can maintain a reflected shock temperature of about 5,500 K for 2 ms time scale. We have performed shock processing of various combinations of amino acids with subsequent morphological analysis carried out using Scanning Electron Microscope (SEM), revealing that the shock processed amino acids demonstrate an extensive range of complex structures. These results provide evidence for the further evolution of amino acids in impact-induced shock environments leading to the formation of complex structures and thus providing a pathway for the origin of life.
在震荡处理的氨基酸混合物中观察到三维复杂结构
小行星和彗星的撞击被认为是早期地球上有机物外源传递的可能途径之一。氨基酸可以通过简单分子的冲击加工合成,并且氨基酸可以在冲击事件的极端条件下存活。在本研究中,我们利用一个能在2 ms时间尺度内保持约5,500 K反射冲击温度的激波管来模拟冲击诱导的冲击条件。我们对氨基酸的各种组合进行了冲击处理,随后使用扫描电子显微镜(SEM)进行了形态分析,揭示了冲击处理的氨基酸显示出广泛的复杂结构。这些结果为氨基酸在撞击诱发的冲击环境中进一步进化导致复杂结构的形成提供了证据,从而为生命的起源提供了途径。
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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CiteScore
1.50
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