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BIOMEX



Publication List

de Vera, J.-P. Boettger, U.de laTorre Noetzel, R., Sánchez, F.J., Grunow, D., Schmitz, N., Lange, C., Hübers H.-W., Billi, D., Baqué, M., Rettberg, P., Rabbow, E., Reitz, G., Berger, T., Möller, R., Bohmeier, M., Horneck, G., Westall, F., Jänchen, J. Fritz, F., Meyer, C., Onofri, S., Selbmann, L., Zucconi, L., Kozyrovska, N., Leya, T., Foing, B., Demets, R., Cockell, C.S., Bryce, C., Wagner, D., Serrano, P., Edwards H.G.M., Joshi, J., Huwe, B., Ehren-freund, P., Elsaesser, A., Ott, S., Meessen, J., Feyh, N., Szewzyk, U., Jaumann, R., Spohn, T. (2012). Supporting Mars exploration: BIOMEX in Low Earth Orbit and further astrobiological studies on the Moon using Raman and PanCam technology. Planetary and Space Science 74 (1): 103-110.

Backhaus, T., de la Torre, R., Lyhme, K., de Vera, J.-P. and Meeßen, J. (2014). Desiccation and low temperature attenuate the effect of UVC254 nm in the photobiont of the astrobiologically relevant lichens Circinaria gyrosa and Buellia frigida. International Journal of Astrobiology, doi:10.1017/S1473550414000470.

Baqué M., de Vera, J.-P., Rettberg, P., Billi, D., 2013. The BOSS and BIOMEX space experiments on the EXPOSE-R2 mission: Endurance of the desert cyanobacterium Chroococcidiopsis under simulated space vacuum, Martian atmosphere, UVC radiation and temperature extremes. Acta Astronautica 91 (2013) 180–186.

Baqué, M., Verseux, C., Rabbow, E., de Vera, J.P.P., Billi, D., 2014. Detection of macromolecules in desert cyanobacteria mixed with a lunar mineral analogue after space simulations. Orig Life Evol Biosph, DOI 10.007/s11084-014-9367-4.

Böttger, U., de Vera, J.-P., Fritz, J., Weber, I., Hübers, H.-W., Schulze-Makuch, D., 2011. Optimizing the detection of carotene in cyanobacteria in a Martian regolith analogue with a Raman spectrometer for the ExoMars mission. Planetary and Space Science 60 (2012) 356–362.

Böttger, U., de la Torre, R., Frias, J.-M., Rull, F., Meessen, J., Sánchez Íñigo, F.J., Hübers, H.-W., de Vera, J.P. (2013). Raman spectroscopic analysis of the oxalate producing extremophile Circinaria Gyrosa. International Journal of Astrobiology, 13 (1): 19–27.

Böttger, U., de Vera, J.P., Hermelink, A., Fritz, J., Weber, I., Schulze-Makuch, D., Hübers, H.-W. (2013). Application of Raman spectroscopy, as in situ technology for the search for life. In de Vera, J.P. and Seckbach, J. (eds.), Cellular origins, life in extreme habitats and astrobiology 28: Habitability of other planets and satellites“, 333-345.
Jänchen, J., Bauermeister, A., Feyh, N., de Vera, J.-P., Rettberg, P., Flemming, H.-C., Szewzyk, U. (2014). Water retention of selected microorganisms and Martian soil simulants under close to Martian environmental conditions. Planetary and Space Science 98, 163-168.

Jänchen, J., Meeßen, J., Herzog, T.H., Feist, M., de la Torre, R. and deVera, J.-P.P., 2015. Humidity interaction of lichens under astrobiological aspects: the impact of UVC exposure on their water retention properties. International Journal of Astrobiology, 14 (3): 445-456.

Kozyrovska, N.O., Reva1, O.M., Goginyan, V., de Vera, J.P. (2012). Kombucha microbiome as a probiotic: a view from the perspective of post-genomics and synthetic ecology. Biopolymers and Cell, 28(2): 103-113.

Kukharenko, O., Podolich, O., Rybitska, A., Reshetnyak, G., Burlak, L., Ovcharenko, L., Voznyuk, T., Moshynets, O., Rogutskyi, I., Zaets, I., Yaneva, O., Reva, O., Pidgorskiy, V., Rabbow, E., de Vera, J.P., Yatsenko, V., Kozyrovska, N. (2012). Robust symbiotic microbial communities in space research. Report to COSPAR, Space Research in Ukraine, National Academy of Science of Ukraine, State Agency of Ukraine.

J. Meesen, P. Wuthenow, P. Schille, E. Rabbow, J.-P.P. de Vera and S. Ott 2015. Resistance of the lichen Buellia frigida to simulated space conditions during the pre-flight tests for BIOMEX – viability assay and morphological stability. Astrobiology 15 (8): 601-615.

J. Meeßen, T. Backhaus, A. Sadowsky, M. Mrkalj, F.J. Sánchez, R. de la Torre and S. Ott (2014). Effects of UVC254 nm on the photosynthetic activity of photobionts from the astrobiologically relevant lichens Buellia frigida and Circinaria gyrosa. International Journal of Astrobiology 13 (4): 340–352, doi:10.1017/S1473550414000275.

Meeßen, J., Sánchez, F. J., Brandt, A., Balzer, E.-M., de la Torre, R., Sancho, L. G., de Vera, J.-P. and Ott , S., 2013. Extremotolerance and Resistance of Lichens: Comparative Studies on Five Species Used in Astrobiological Research I. Morphological and Anatomical Characteristics. Orig Life Evol Biosph 43: 283–303.

Meeßen, J., Sánchez, F. J., Sadowsky, A., de la Torre, R., Ott, S., de Vera, J.-P. (2013). Extremotolerance and Resistance of Lichens: Comparative Studies on Five Species Used in Astrobiological Research II. Secondary Lichen Compounds. Orig Life Evol Biosph (2013) 43:501–526.

Reva, O.N., Zaets, I.E., Ovcharenko, L.P., Kukharenko, O.E., Shpylova, S.P., Podolich, O.V., de Vera, J.‑P. and Kozyrovska N.O. (2015). Metabarcoding of the kombucha microbial community grown in different microenvironments. AMB Expr 5:35, DOI 10.1186/s13568-015-0124-5.

Sánchez, F.J., Mateo-Martí, E., Raggio, J., Meeßen, J., Martínez-Frías, J., Sancho, L. Ga., Ott, S., de la Torre, R., 2012. The resistance of the lichen Circinaria gyrosa (nom. provis.) towards simulated Mars conditions—a model test for the survival capacity of an eukaryotic extremophile. Planetary and Space Science 72, 102–110.

Serrano, P., Hermelink, A., Boettger, U., de Vera, J.-P., Wagner, D., 2014. Biosignature detection of methanogenic archaea from Siberian permafrost using confocal Raman spectroscopy. Planetary and Space Science 98, 191–197.

Zaets, I., Podolich, O., Kukharenko, O., Reshetnyak, G., Shpylova, S., Sosnin, M., Khirunenko, L., Kozyrovska, N., de Vera, J.-P. (2014). Bacterial cellulose may provide the microbial-life biosignature in the rock records. Advances in Space Research 53: 828–835.

Submitted:

Mickael Baqué, Cyprien Verseux, Ute Böttger, Elke Rabbow, Jean-Pierre Paul de Vera and Daniela Billi, 2015. Biosignature preservation of cyanobacteria mixed with phyllosilicatic and sulfatic Martian regoliths under simulated Martian atmosphere and UV flux. Orig Life Evol Biosph (submitted).


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