Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation

Bibliographic Details
Main Authors:	Amanda L. Smythers, Kara M. Joseph, Hayden M. O’Dell, Trace A. Clark, Jessica R. Crislip, Brendin B. Flinn, Meredith H. Daughtridge, Evan R. Stair, Saher N. Mubarek, Hailey C. Lewis, Abel A. Salas, Megan E. Hnilica, Derrick R. J. Kolling, Leslie M. Hicks
Format:	Article
Language:	English
Published:	Public Library of Science (PLoS) 2024-01-01
Series:	PLoS ONE
Online Access:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10793892/?tool=EBI

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author	Amanda L. Smythers Kara M. Joseph Hayden M. O’Dell Trace A. Clark Jessica R. Crislip Brendin B. Flinn Meredith H. Daughtridge Evan R. Stair Saher N. Mubarek Hailey C. Lewis Abel A. Salas Megan E. Hnilica Derrick R. J. Kolling Leslie M. Hicks
author_facet	Amanda L. Smythers Kara M. Joseph Hayden M. O’Dell Trace A. Clark Jessica R. Crislip Brendin B. Flinn Meredith H. Daughtridge Evan R. Stair Saher N. Mubarek Hailey C. Lewis Abel A. Salas Megan E. Hnilica Derrick R. J. Kolling Leslie M. Hicks
author_sort	Amanda L. Smythers
collection	DOAJ
first_indexed	2024-03-08T13:01:22Z
format	Article
id	doaj.art-8f195cbca29e4a46a3515422a4ddebeb
institution	Directory Open Access Journal
issn	1932-6203
language	English
last_indexed	2024-03-08T13:01:22Z
publishDate	2024-01-01
publisher	Public Library of Science (PLoS)
record_format	Article
series	PLoS ONE
spelling	doaj.art-8f195cbca29e4a46a3515422a4ddebeb2024-01-19T05:46:42ZengPublic Library of Science (PLoS)PLoS ONE1932-62032024-01-01191Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidationAmanda L. SmythersKara M. JosephHayden M. O’DellTrace A. ClarkJessica R. CrislipBrendin B. FlinnMeredith H. DaughtridgeEvan R. StairSaher N. MubarekHailey C. LewisAbel A. SalasMegan E. HnilicaDerrick R. J. KollingLeslie M. Hickshttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC10793892/?tool=EBI
spellingShingle	Amanda L. Smythers Kara M. Joseph Hayden M. O’Dell Trace A. Clark Jessica R. Crislip Brendin B. Flinn Meredith H. Daughtridge Evan R. Stair Saher N. Mubarek Hailey C. Lewis Abel A. Salas Megan E. Hnilica Derrick R. J. Kolling Leslie M. Hicks Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation PLoS ONE
title	Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation
title_full	Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation
title_fullStr	Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation
title_full_unstemmed	Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation
title_short	Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation
title_sort	chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation
url	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10793892/?tool=EBI
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Chemobiosis reveals tardigrade tun formation is dependent on reversible cysteine oxidation

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