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

Surendra V. Singh; Jayaram Vishakantaiah; Jaya K. Meka; Mariyappan Muruganantham; Vijay Thiruvenkatam; Vijayan Sivaprahasam; Balabhadrapatruni N. Rajasekhar; Anil Bhardwaj; Nigel J. Mason; Bhalamurugan Sivaraman; Jennifer Beseres Pollack

doi:10.1017/exp.2021.17

Experimental Results (Jan 2022)

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

Surendra V. Singh,
Jayaram Vishakantaiah,
Jaya K. Meka,
Mariyappan Muruganantham,
Vijay Thiruvenkatam,
Vijayan Sivaprahasam,
Balabhadrapatruni N. Rajasekhar,
Anil Bhardwaj,
Nigel J. Mason,
Bhalamurugan Sivaraman,
Jennifer Beseres Pollack

Affiliations

Surendra V. Singh: ORCiD; Atomic, Molecular and Optical Physics Division, Physical Research Laboratory, Ahmedabad, India Discipline of Physics, Indian Institute of Technology Gandhinagar, Gandhinagar, India
Jayaram Vishakantaiah: Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore, India
Jaya K. Meka: Atomic, Molecular and Optical Physics Division, Physical Research Laboratory, Ahmedabad, India
Mariyappan Muruganantham: Geosciences Division, Physical Research Laboratory, Ahmedabad, India
Vijay Thiruvenkatam: Discipline of Biological Engineering, Indian Institute of Technology Gandhinagar, Gandhinagar, India
Vijayan Sivaprahasam: Planetary Sciences Division, Physical Research Laboratory, Ahmedabad, India
Balabhadrapatruni N. Rajasekhar: Atomic and Molecular Physics Division, Bhabha Atomic Research Centre, Mumbai, India
Anil Bhardwaj: Planetary Sciences Division, Physical Research Laboratory, Ahmedabad, India
Nigel J. Mason: School of Physical Sciences, Ingram Building, University of Kent, Canterbury, UK
Bhalamurugan Sivaraman: Atomic, Molecular and Optical Physics Division, Physical Research Laboratory, Ahmedabad, India
Jennifer Beseres Pollack: Texas A&M University Corpus Christi, Harte Research Institute for Gulf of Mexico Studies, Corpus Christi, Texas, United States, 78412

DOI: https://doi.org/10.1017/exp.2021.17
Journal volume & issue: Vol. 3

Abstract

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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.

Published in Experimental Results

ISSN: 2516-712X (Online)
Publisher: Cambridge University Press
Country of publisher: United Kingdom
LCC subjects: Technology; Medicine; Science
Website: https://www.cambridge.org/core/journals/experimental-results

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