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Microbial Markers Profile in Anaerobic MarsAnalogue Environments Using the LDChip(Life Detector Chip) Antibody Microarray Coreof the SOLID (Signs of Life Detector) Platform

One of the main objectives for astrobiology is to unravel and explore the habitability of environments beyond Earth, paying special attention to Mars. If the combined environmental stress factors on Mars are compatible with life or if they were less harsh in the past, to investigate the traces of pa...

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Published in:	Microorganisms (Basel) 2019-09
Main Authors:	Garcia-Descalzo, Laura, Parro, Victorino, García-Villadangos, Miriam, Cockell, Charles, Moissl-Eichinger, Christine, Perras, Alex, Rettberg, Petra, Beblo-Vranesevic, Kristina, Bohmeier, Maria, Rabbow, Elke, Westall, Frances, Gaboyer, Frederik, Amils, Ricardo, Malki, Moustafa, Marteinsson, Viggo, Vannier, Pauline, Ehrenfreund, Pascale, Monaghan, Euan, Riedo, Andreas, Cabezas, Patricia, Walter, Nicolas, Gómez Gómez, Felipe
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Language:	English
Subjects:	Life Sciences Sciences of the Universe
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creator	Garcia-Descalzo, Laura Parro, Victorino García-Villadangos, Miriam Cockell, Charles Moissl-Eichinger, Christine Perras, Alex Rettberg, Petra Beblo-Vranesevic, Kristina Bohmeier, Maria Rabbow, Elke Westall, Frances Gaboyer, Frederik Amils, Ricardo Malki, Moustafa Marteinsson, Viggo Vannier, Pauline Ehrenfreund, Pascale Monaghan, Euan Riedo, Andreas Cabezas, Patricia Walter, Nicolas Gómez Gómez, Felipe
description	One of the main objectives for astrobiology is to unravel and explore the habitability of environments beyond Earth, paying special attention to Mars. If the combined environmental stress factors on Mars are compatible with life or if they were less harsh in the past, to investigate the traces of past or present life is critical to understand its potential habitability. Essential for this research is the characterization of Mars analogue environments on Earth through the development of techniques for biomarker detection in them. Biosensing techniques based on fluorescence sandwich microarray immunoassays (FSMI) have shown to be a powerful tool to detect biosignatures and depict the microbial profiles of different environments. In this study, we described the microbial biomarker profile of five anoxic Mars analogues sites using the Life Detector Chip (LDChip), an antibody microarray for multiple microbial marker detection. Furthermore, we contributed to new targets by developing a new 26-polyclonal antibodies microarray using crude extracts from anaerobic sampling sites, halophilic microorganisms, and anaerobic isolates obtained in the framework of the European Mars Analogues for Space Exploration (MASE) project. The new subset of antibodies was characterized and implemented into a microarray platform (MASE-Chip) for microbial markersearching in salty and anaerobic environments.
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title	Microbial Markers Profile in Anaerobic MarsAnalogue Environments Using the LDChip(Life Detector Chip) Antibody Microarray Coreof the SOLID (Signs of Life Detector) Platform
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