CRISPR-Cas9 Therapies in Experimental Mouse Models of Cancer

Earth's subsurface offers one of the best possible sites to search for microbial life and the characteristic lithologies that life leaves behind. The subterrain may be equally valuable for astrobiology. Where surface conditions are particularly hostile, like on Mars, the subsurface may offer the only habitat for extant lifeforms and access to recognizable biosignatures. We have identified numerous unequivocally biogenic macroscopic, microscopic, and chemical/geochemical cave biosignatures. However, to be especially useful for astrobiology, we are looking for suites of characteristics. Ideally, "biosignature suites" should be both macroscopically and microscopically detectable, independently verifiable by nonmorphological means, and as independent as possible of specific details of life chemistries--demanding (and sometimes conflicting) criteria. Working in fragile, legally protected environments, we developed noninvasive and minimal impact techniques for life and biosignature detection/characterization analogous to Planetary Protection Protocols. Our difficult field conditions have shared limitations common to extraterrestrial robotic and human missions. Thus, the cave/subsurface astrobiology model addresses the most important goals from both scientific and operational points of view. We present details of cave biosignature suites involving manganese and iron oxides, calcite, and sulfur minerals. Suites include morphological fossils, mineral-coated filaments, living microbial mats and preserved biofabrics, 13C and 34S values consistent with microbial metabolism, genetic data, unusual elemental abundances and ratios, and crystallographic mineral forms.

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Comparison of bacterial communities from lava cave microbial mats to overlying surface soils from Lava Beds National Monument, USA

Lavoie

et al. 2017

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Subsurface habitats harbor novel diversity that has received little attention until recently. Accessible subsurface habitats include lava caves around the world that often support extensive microbial mats on ceilings and walls in a range of colors. Little is known about lava cave microbial diversity and how these subsurface mats differ from microbial communities in overlying surface soils. To investigate these differences, we analyzed bacterial 16S rDNA from 454 pyrosequencing from three colors of microbial mats (tan, white, and yellow) from seven lava caves in Lava Beds National Monument, CA, USA, and compared them with surface soil overlying each cave. The same phyla were represented in both surface soils and cave microbial mats, but the overlap in shared OTUs (operational taxonomic unit) was only 11.2%. Number of entrances per cave and temperature contributed to observed differences in diversity. In terms of species richness, diversity by mat color differed, but not significantly. Actinobacteria dominated in all cave samples, with 39% from caves and 21% from surface soils. Proteobacteria made up 30% of phyla from caves and 36% from surface soil. Other major phyla in caves were Nitrospirae (7%) followed by minor phyla (7%), compared to surface soils with Bacteroidetes (8%) and minor phyla (8%). Many of the most abundant sequences could not be identified to genus, indicating a high degree of novelty. Surface soil samples had more OTUs and greater diversity indices than cave samples. Although surface soil microbes immigrate into underlying caves, the environment selects for microbes able to live in the cave habitats, resulting in very different cave microbial communities. This study is the first comprehensive comparison of bacterial communities in lava caves with the overlying soil community.

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Geomicrobiology of Caves: A Review

Northup¹,

Lavoie²

2001

Geomicrobiology Journal

253

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Inhibition of Bacterial Growth In Vitro Following Stimulation with High Voltage, Monophasic, Pulsed Current

Kincaid

Lavoie

1989

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Low-intensity direct current has been reported to be effective in promoting healing of infected wounds, and these results have been assumed to apply to stimulation of wound tissue with monophasic high voltage pulsed current (HVPC). The purpose of this study was to determine whether HVPC has an inhibitory effect on growth in vitro of three bacterial species--Staphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa--commonly isolated from open wounds. Following exposure to HVPC, the measured zone of inhibition of bacterial growth was not significantly different between bacterial species. Inhibition at the anode (positive pole) occurred secondary to build-up of toxic end products, and inhibition at the cathode (negative pole) resulted from exposure to HVPC. Duration of exposure and voltage showed a highly significant linear relationship. Exposure to more than 250 V of HVPC for at least two hours resulted in some degree of inhibition of growth in all three bacterial species.

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Kathleen H. Lavoie

Cave Biosignature Suites: Microbes, Minerals, and Mars

Comparison of bacterial communities from lava cave microbial mats to overlying surface soils from Lava Beds National Monument, USA

Geomicrobiology of Caves: A Review

Inhibition of Bacterial Growth In Vitro Following Stimulation with High Voltage, Monophasic, Pulsed Current

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