Tim Krahn scite author profile

Tim Krahn

3Publications

39Citation Statements Received

67Citation Statements Given

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107

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Technische Universität Berlin

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A New Record for Microbial Perchlorate Tolerance: Fungal Growth in NaClO4 Brines and its Implications for Putative Life on Mars

Heinz

Krahn

Schulze‐Makuch

2020

Life

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The habitability of Mars is strongly dependent on the availability of liquid water, which is essential for life as we know it. One of the few places where liquid water might be found on Mars is in liquid perchlorate brines that could form via deliquescence. As these concentrated perchlorate salt solutions do not occur on Earth as natural environments, it is necessary to investigate in lab experiments the potential of these brines to serve as a microbial habitat. Here, we report on the sodium perchlorate (NaClO4) tolerances for the halotolerant yeast Debaryomyces hansenii and the filamentous fungus Purpureocillium lilacinum. Microbial growth was determined visually, microscopically and via counting colony forming units (CFU). With the observed growth of D. hansenii in liquid growth medium containing 2.4 M NaClO4, we found by far the highest microbial perchlorate tolerance reported to date, more than twice as high as the record reported prior (for the bacterium Planococcus halocryophilus). It is plausible to assume that putative Martian microbes could adapt to even higher perchlorate concentrations due to their long exposure to these environments occurring naturally on Mars, which also increases the likelihood of microbial life thriving in the Martian brines.

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Human gene therapy with myoblast transfer

Law¹,

Goodwin²,

Fang³

et al. 1997

Transplantation Proceedings

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Article Commentary: First Human Myoblast Transfer Therapy Continues to Show Dystrophin after 6 Years

Law¹,

Goodwin²,

Fang³

et al. 1997

Cell Transplant

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Tim Krahn

A New Record for Microbial Perchlorate Tolerance: Fungal Growth in NaClO4 Brines and its Implications for Putative Life on Mars

Human gene therapy with myoblast transfer

Article Commentary: First Human Myoblast Transfer Therapy Continues to Show Dystrophin after 6 Years

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