Lea Doris Friedel Kloss
YOU?
Author Swipe
View article: Surviving Martian Brines: Proteomic Analysis of Escherichia coli’s Adaptation to Perchlorate Stress
Surviving Martian Brines: Proteomic Analysis of Escherichia coli’s Adaptation to Perchlorate Stress Open
Brines, potentially formed by the deliquescence and freezing point depression of highly hygroscopic salts, such as perchlorates (ClO4-), may allow for the spatial and temporal stability of liquid water on present-day Mars. It is therefore …
View article: Derivation of the Immortalized Cell Line UM51-PrePodo-hTERT and Its Responsiveness to Angiotensin II and Activation of the RAAS Pathway
Derivation of the Immortalized Cell Line UM51-PrePodo-hTERT and Its Responsiveness to Angiotensin II and Activation of the RAAS Pathway Open
Recent demographic studies predict there will be a considerable increase in the number of elderly people within the next few decades. Aging has been recognized as one of the main risk factors for the world’s most prevalent diseases such as…
View article: Perchlorate-induced stress responses of Escherichia coli and their implications for the habitability of Mars
Perchlorate-induced stress responses of Escherichia coli and their implications for the habitability of Mars Open
<p>Putative Martian microorganisms could have adapted to the dry, subzero environment of present-day Mars by resorting to hygroscopic salts that might ensure, at least temporarily, the existence of near-surface liquid brines<sup&g…