Capillary electrophoresis method for analysis of inorganic and organic anions related to habitability and the search for life |
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Authors: | Elizabeth A. Jaramillo Mauro S. Ferreira Santos Aaron C. Noell Maria F. Mora |
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Affiliation: | Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, USA |
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Abstract: | In situ missions of exploration require analytical methods that are capable of detecting a wide range of molecular targets in complex matrices without a priori assumptions of sample composition. Furthermore, these methods should minimize the number of reagents needed and any sample preparation steps. We have developed a method for the detection of metabolically relevant inorganic and organic anions that is suitable for implementation on in situ spaceflight missions. Using 55 mM acetic acid, 50 mM triethylamine, and 5% glycerol, more than 21 relevant anions are separated in less than 20 min. The method is robust to sample ionic strength, tolerating high concentrations of background salts (up to 900 mM NaCl and 300 mM MgSO4). This is an important feature for future missions to ocean worlds. The method was validated using a culture of Escherichia coli and with high salinity natural samples collected from Mono Lake, California. |
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Keywords: | Astrobiology Biosignatures Carboxylic acids Contactless conductivity detection High salinity samples |
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