High resolution microscopy (SEM, AFM), epifluorescence microscopy, lipid biomarkers’ analysis, 16sRNA analysis of isolated strains and routine microbiological techniques were applied. Living prokaryotic and eukaryotic microorganisms were observed in all samples investigated. The total cell’s amount in AntDinaciclib chemical structure Arctic and Arctic samples ranged to 107–108cells per gram dry weight and for most of them significantly exceeded CFU number (102–106). Among isolated strains from Antarctic permafrost were the representatives of gram positive bacteria Bacillus, Rhodococcus and gram negative bacteria Aureobacterium (Curtobacterium), or Comamonas Selleck Danusertib (Aquaspirillum). For
ancient Arctic ground ice among the dominants were gram positive strains of genera Arthrobacter, Promicromonospora and strains of gram negative bacteria of genera Flavobacterium. All isolated strains revealed the possibility to growth at wide range of temperatures. More than half of isolated bacterial strains were resistant to various antibiotics. Study of antibiotic resistance spectrum of all isolated from Arctic and Antarctic sediments strains showed not only single resistance to certain antibiotic, but also double resistance to various antibiotics. As revealed by method of 16sRNA analysis, among these strains were bacteria
of genera Acinetobacter, Paenibacillus and Brevundimonas It was revealed that endogenic physiological transformations of bacterial cells in permafrost sediments doesn’t depend on the lithogenesis, but to a grater extent on long persistence of temperature/or water availability. It could be expected, that in conditions of prolonged Epacadostat solubility dmso cell multiplication braking, the adaptive mutations proceed in microbial cells, increasing the vitally important potential of microorganisms. The obtained results provide new arguments to the whys and wherefores of the astrobiology search Chloroambucil of life on other planets with dominated subzero temperatures
(Mars). E-mail: second_ks@mail.ru Pyrolysis GC/MS Technique Application to Exobiology Yeghis Keheyan ISMN-CNR, c/o Dept. of Chemistry, University “La Sapienza”, p.le Aldo Moro 5, Rome-0185, Italy Many extraterrestrial objects are known to contain organic mater in the form of complex macromolecular materials. Pyrolysis coupled with gas chromatography and mass spectrometry (Py-GC–MS) is known to be powerful tool in analysing such materials and has been applied to the study of different complex organic matter contained in meteorites and interplanetary dust particles. The results of pyrolysis experiments to estimate survivability of different compounds of exobiological interest in oxygen-free (He) atmosphere will be reported. E-mail: yeghis.keheyan@uniroma1.it Early Survival, Pigment Spectra, and Productivity of Photosynthesis on M Star Planets Nancy Y. Kiang1,10, Antígona Segura2,10, Giovanna Tinetti3,10, Govindjee4, Robert E.