Nucleic acid detection aboard the International Space Station by colorimetric loop‐mediated isothermal amplification (LAMP)

Julian Rubinfien; Kutay D. Atabay; Nicole M. Nichols; Nathan A. Tanner; John A. Pezza; Michelle M. Gray; Brandon M. Wagner; Jayme N. Poppin; Jordan T. Aken; Emily J. Gleason; Kevin D. Foley; David Scott Copeland; Sebastian Kraves; Ezequiel Alvarez Saavedra

doi:10.1096/fba.2019-00088

FASEB BioAdvances (Mar 2020)

Nucleic acid detection aboard the International Space Station by colorimetric loop‐mediated isothermal amplification (LAMP)

Julian Rubinfien,
Kutay D. Atabay,
Nicole M. Nichols,
Nathan A. Tanner,
John A. Pezza,
Michelle M. Gray,
Brandon M. Wagner,
Jayme N. Poppin,
Jordan T. Aken,
Emily J. Gleason,
Kevin D. Foley,
David Scott Copeland,
Sebastian Kraves,
Ezequiel Alvarez Saavedra

Affiliations

Julian Rubinfien: Yale University New Haven CT USA
Kutay D. Atabay: Whitehead Institute for Biomedical ResearchMassachusetts Institute of Technology Cambridge MA USA
Nicole M. Nichols: New England Biolabs, Inc. Ipswich MA USA
Nathan A. Tanner: New England Biolabs, Inc. Ipswich MA USA
John A. Pezza: New England Biolabs, Inc. Ipswich MA USA
Michelle M. Gray: Boeing Defense Berkeley MI USA
Brandon M. Wagner: Boeing Defense Berkeley MI USA
Jayme N. Poppin: Boeing Defense Berkeley MI USA
Jordan T. Aken: Boeing Defense Berkeley MI USA
Emily J. Gleason: miniPCR bio Cambridge MA USA
Kevin D. Foley: Boeing Defense Berkeley MI USA
David Scott Copeland: Boeing Defense Berkeley MI USA
Sebastian Kraves: miniPCR bio Cambridge MA USA
Ezequiel Alvarez Saavedra: miniPCR bio Cambridge MA USA

DOI: https://doi.org/10.1096/fba.2019-00088
Journal volume & issue: Vol. 2, no. 3
pp. 160 – 165

Abstract

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Abstract Human spaceflight endeavors present an opportunity to expand our presence beyond Earth. To this end, it is crucial to understand and diagnose effects of long‐term space travel on the human body. Developing tools for targeted, on‐site detection of specific DNA sequences will allow us to establish research and diagnostics platforms that will benefit space programs. We describe a simple DNA diagnostic method that utilizes colorimetric loop‐mediated isothermal amplification (LAMP) to enable detection of a repetitive telomeric DNA sequence in as little as 30 minutes. A proof of concept assay for this method was carried out using existing hardware on the International Space Station and the results were read instantly by an astronaut through a simple color change of the reaction mixture. LAMP offers a novel platform for on‐orbit DNA‐based diagnostics that can be deployed on the International Space Station and to the broader benefit of space programs.

Published in FASEB BioAdvances

ISSN: 2573-9832 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General)
Website: https://onlinelibrary.wiley.com/journal/25739832

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