AUTHOR=Urbaniak Camilla , Wong Season , Tighe Scott , Arumugam Arunkumar , Liu Bo , Parker Ceth W. , Wood Jason M. , Singh Nitin K. , Skorupa Dana J. , Peyton Brent M. , Jenson Ryan , Karouia Fathi , Dragon Julie , Venkateswaran Kasthuri
TITLE=Validating an Automated Nucleic Acid Extraction Device for Omics in Space Using Whole Cell Microbial Reference Standards
JOURNAL=Frontiers in Microbiology
VOLUME=11
YEAR=2020
URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2020.01909
DOI=10.3389/fmicb.2020.01909
ISSN=1664-302X
ABSTRACT=
NASA has made great strides in the past five years to develop a suite of instruments for the International Space Station in order to perform molecular biology in space. However, a key piece of equipment that has been lacking is an instrument that can extract nucleic acids from an array of complex human and environmental samples. The Omics in Space team has developed the μTitan (simulated micro(μ) gravity tested instrument for automated nucleic acid) system capable of automated, streamlined, nucleic acid extraction that is adapted for use under microgravity. The μTitan system was validated using a whole cell microbial reference (WCMR) standard comprised of a suspension of nine bacterial strains, titrated to concentrations that would challenge the performance of the instrument, as well as to determine the detection limits for isolating DNA. Quantitative assessment of system performance was measured by comparing instrument input challenge dose vs recovery by Qubit spectrofluorometry, qPCR, Bioanalyzer, and Next Generation Sequencing. Overall, results indicate that the μTitan system performs equal to or greater than a similar commercially available, earth-based, automated nucleic acid extraction device. The μTitan system was also tested in Yellowstone National Park (YNP) with the WCMR, to mimic a remote setting, with limited resources. The performance of the device at YNP was comparable to that in a laboratory setting. Such a portable, field-deployable, nucleic extraction system will be valuable for environmental microbiology, as well as in health care diagnostics.