16S rRNA beacons for bacterial monitoring during human space missions

Maia Larios-Sanz; Katerina D. Kourentzi; David Warmflash; Jeffrey Jones; Duane L. Pierson; Richard C. Willson; George E. Fox

16S rRNA beacons for bacterial monitoring during human space missions

Maia Larios-Sanz, Katerina D. Kourentzi, David Warmflash, Jeffrey Jones, Duane L. Pierson, Richard C. Willson, George E. Fox

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Microorganisms are unavoidable in space environments and their presence has, at times, been a source of problems. Concerns about disease during human space missions are particularly important considering the significant changes the immune system incurs during spaceflight and the history of microbial contamination aboard the Mir space station. Additionally, these contaminants may have adverse effects on instrumentation and life-support systems. A sensitive, highly specific system to detect, characterize, and monitor these microbial populations is essential. Herein we describe a monitoring approach that uses 16S rRNA targeted molecular beacons to successfully detect several specific bacterial groupings. This methodology will greatly simplify in-flight monitoring by minimizing sample handling and processing. We also address and provide solutions to target accessibility problems encountered in hybridizations that target 16S rRNA.

Original language	English (US)
Journal	Aviation Space and Environmental Medicine
Volume	78
Issue number	4 II
State	Published - Apr 1 2007

Keywords

16s rRNA
Bacteria
Monitoring
Spacecraft

ASJC Scopus subject areas

Public Health, Environmental and Occupational Health
Pollution
Medicine(all)

Cite this

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title = "16S rRNA beacons for bacterial monitoring during human space missions",

abstract = "Microorganisms are unavoidable in space environments and their presence has, at times, been a source of problems. Concerns about disease during human space missions are particularly important considering the significant changes the immune system incurs during spaceflight and the history of microbial contamination aboard the Mir space station. Additionally, these contaminants may have adverse effects on instrumentation and life-support systems. A sensitive, highly specific system to detect, characterize, and monitor these microbial populations is essential. Herein we describe a monitoring approach that uses 16S rRNA targeted molecular beacons to successfully detect several specific bacterial groupings. This methodology will greatly simplify in-flight monitoring by minimizing sample handling and processing. We also address and provide solutions to target accessibility problems encountered in hybridizations that target 16S rRNA.",

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T1 - 16S rRNA beacons for bacterial monitoring during human space missions

AU - Larios-Sanz, Maia

AU - Kourentzi, Katerina D.

AU - Warmflash, David

AU - Jones, Jeffrey

AU - Pierson, Duane L.

AU - Willson, Richard C.

AU - Fox, George E.

PY - 2007/4/1

Y1 - 2007/4/1

N2 - Microorganisms are unavoidable in space environments and their presence has, at times, been a source of problems. Concerns about disease during human space missions are particularly important considering the significant changes the immune system incurs during spaceflight and the history of microbial contamination aboard the Mir space station. Additionally, these contaminants may have adverse effects on instrumentation and life-support systems. A sensitive, highly specific system to detect, characterize, and monitor these microbial populations is essential. Herein we describe a monitoring approach that uses 16S rRNA targeted molecular beacons to successfully detect several specific bacterial groupings. This methodology will greatly simplify in-flight monitoring by minimizing sample handling and processing. We also address and provide solutions to target accessibility problems encountered in hybridizations that target 16S rRNA.

AB - Microorganisms are unavoidable in space environments and their presence has, at times, been a source of problems. Concerns about disease during human space missions are particularly important considering the significant changes the immune system incurs during spaceflight and the history of microbial contamination aboard the Mir space station. Additionally, these contaminants may have adverse effects on instrumentation and life-support systems. A sensitive, highly specific system to detect, characterize, and monitor these microbial populations is essential. Herein we describe a monitoring approach that uses 16S rRNA targeted molecular beacons to successfully detect several specific bacterial groupings. This methodology will greatly simplify in-flight monitoring by minimizing sample handling and processing. We also address and provide solutions to target accessibility problems encountered in hybridizations that target 16S rRNA.

KW - 16s rRNA

KW - Bacteria

KW - Monitoring

KW - Spacecraft

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16S rRNA beacons for bacterial monitoring during human space missions

Abstract

Keywords

ASJC Scopus subject areas

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