Downloads provided by UsageCountsAnalysis and adsorption-interaction of amino acids on basaltic mineral subjected to different simulated atmospheres
Lalla, Emmanuel; Mateo-Martí, Eva; Medina, Jesús; Sansano, Antonio; Sanz-Arranz, Aurelio; Martínez-Frías, J.; Rull, Fernando;
Analysis and adsorption-interaction of amino acids on basaltic mineral subjected to different simulated atmospheres
[ES] Los experimentos se han realizado con el objectivo de tener un mejor entendimiento sobre aminoácidos inmovilizados sobre matrices de caracter volcánico y estos han sido sometidos a diferentes ambientes extremos (Ambiente marciano, ambiente espacial, ambiente de radiación UV, etc.) dentro de la Cámara de Simulación de atmosferas y superficies planetarias (PASC) en el Centro de Astrobiología- INTA. Los métodos espectroscópicos usados son la espectroscopía Raman e Infrarroja (en la Unidad Asociada Uva-CSIC al Centro de Astrobiología) teniendo en cuenta las capacidades combinadas de estos sistemas para objetivos astrobiológicos como la detección de biomarcadores en la futura misión ESAExoMars. Además, se realizaron medidas mediante microscopía electrónica (SEM-EDX) las cuales complementan los resultados espectroscópicos y refuerzan el uso de estos sistemas para misiones espaciales. Conclusiones: El ácido L-Aspartico demostró ser el más eficiente para este tipo de experimentos; la vida media de los aminoácido es de 104 teniendo en cuenta las referencias; ambos sistemas espectroscópicos Raman-IR, trabajando conjuntamente, detectaron la degradación de los aminoácidos, pero la interacción entre aminoácido-mineral no fue detectada; los experimentos demostraron la versatilidad de la Cámara de Simulación (PASC) en cuanto a la realizacion de experimentos en distintos ambientes planetarios.
[EN] The research have been conducted in order to have a better understanding of amino acid adsorption on volcanic matrix surface subjected to different extreme environmental conditions (Martian surface environment, space environment, UV-environment, etc.) simulated by The Planetary Atmosphere and Surfaces Chamber (PASC) at the ”INTA-Centro de Astrobiogia”. The spectroscopic measurements were done by Raman and IR spectroscopy (at the Unidad Asociada Uva-CSIC at Centro de Astrobiología) taking into account the capabilities of the combined Raman-IR analyses for astrobiological target such as the detection of biomarkers on the future ESA-ExoMars Mission. Moreover, SEM-EDX analyses have been conducted in order to complement the spectroscopic results, which endeavour the use of spectroscopic systems for space missions. Conclusion: The L-aspartic acid shows to be the most suitable amino acid for this kind of experiment; the amino acid half–life is 104 seconds according to the reference; both spectroscopic techniques, working in synergy, have detected the amino acid degradation, but amino acid mineral interaction was not detected; the experiments have shown the versatility of the simulation chamber (PASC) to perform experiments under different planetary environments.
Peer reviewed
Spain
Raman Spectroscopy, Espectroscopía Raman, IR spectroscopy, Cámaras de Simulación, Martian environment, Amino acids, Simulation chambers, Aminoácidos, Simulation Chambers, Ambiente Marciano, Espectroscopia Infrarroja
Raman Spectroscopy, Espectroscopía Raman, IR spectroscopy, Cámaras de Simulación, Martian environment, Amino acids, Simulation chambers, Aminoácidos, Simulation Chambers, Ambiente Marciano, Espectroscopia Infrarroja
selected citations These citations are derived from selected sources.This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).0 popularity This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.Average influence This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).Average impulse This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.Average views 56 downloads 77 - 56views77downloads
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