2020
DOI: 10.3389/fpls.2020.00239
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Root Skewing-Associated Genes Impact the Spaceflight Response of Arabidopsis thaliana

Abstract: The observation that plant roots skew in microgravity recently refuted the long-held conviction that skewing was a gravity-dependent phenomenon. Further, spaceflight root skewing suggests that specific root morphologies and cell wall remodeling systems may be important aspects of spaceflight physiological adaptation. However, connections between skewing, cell wall modification and spaceflight physiology are currently based on inferences rather than direct tests. Therefore, the Advanced Plant Experiments-03-2 (… Show more

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Cited by 41 publications
(60 citation statements)
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References 123 publications
(245 reference statements)
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“…The genes differentially expressed in response to spaceflight share similarities with many documented terrestrial responses. Hallmarks of spaceflight responses include differential expression of genes involved in pathways associated with cell wall remodeling, reactive oxygen species (ROS), pathogen attacks, wounding, salt stress, drought stress, and hormone signaling ( Hoson et al, 2002 ; Gao et al, 2008 ; Salmi and Roux, 2008 ; Blancaflor, 2013 ; Correll et al, 2013 ; Paul et al, 2013 ; Zupanska et al, 2013 ; Ferl et al, 2014 ; Inglis et al, 2014 ; Nakashima et al, 2014 ; Sugimoto et al, 2014 ; Kwon et al, 2015 ; Schüler et al, 2015 ; Zhang et al, 2015 ; Ferl and Paul, 2016 ; Herranz et al, 2019 ; Vandenbrink et al, 2019 ; Barker et al, 2020 ; Califar et al, 2020 ; Kruse et al, 2020 ; Angelos et al, 2021 ; Manian et al, 2021b ). Plants further respond to spaceflight with changes in DNA methylation, again similarly to the epigenetic effects that occur during terrestrial stresses.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…The genes differentially expressed in response to spaceflight share similarities with many documented terrestrial responses. Hallmarks of spaceflight responses include differential expression of genes involved in pathways associated with cell wall remodeling, reactive oxygen species (ROS), pathogen attacks, wounding, salt stress, drought stress, and hormone signaling ( Hoson et al, 2002 ; Gao et al, 2008 ; Salmi and Roux, 2008 ; Blancaflor, 2013 ; Correll et al, 2013 ; Paul et al, 2013 ; Zupanska et al, 2013 ; Ferl et al, 2014 ; Inglis et al, 2014 ; Nakashima et al, 2014 ; Sugimoto et al, 2014 ; Kwon et al, 2015 ; Schüler et al, 2015 ; Zhang et al, 2015 ; Ferl and Paul, 2016 ; Herranz et al, 2019 ; Vandenbrink et al, 2019 ; Barker et al, 2020 ; Califar et al, 2020 ; Kruse et al, 2020 ; Angelos et al, 2021 ; Manian et al, 2021b ). Plants further respond to spaceflight with changes in DNA methylation, again similarly to the epigenetic effects that occur during terrestrial stresses.…”
Section: Introductionmentioning
confidence: 99%
“…DNA methylation and other epigenetic modifications have been reported to play a role in regulating the innate immune response and pathogen response ( Dowen et al, 2012 ; Wang et al, 2013 ; Yu et al, 2013 ; Tameshige et al, 2015 ; Jarosz et al, 2020 ). Many components of the gene networks associated with these pathogen-associated pathways are also differentially expressed by plants in spaceflight ( Correll et al, 2013 ; Paul et al, 2013 , 2017 ; Sugimoto et al, 2014 ; Kwon et al, 2015 ; Schüler et al, 2015 ; Herranz et al, 2019 ; Barker et al, 2020 ; Califar et al, 2020 ; Manian et al, 2021a ). This commonality of terrestrial environmental responses with spaceflight responses begged the question: do plants use similar tools to regulate genes in response to spaceflight?…”
Section: Introductionmentioning
confidence: 99%
“…Although some trends are common to rosettes and floral stems upon growth at 22 °C or 15 °C, only two CW transcripts/CWPs of the oxido-reductases functional class were common to the short list of those differentially accumulated at a given growth temperature: AT5G15350 which is an early nodulin (AtEN22) homologous to blue copper binding proteins, and AT1G41830 which is a multicopper oxidase (AtSKS6) homologous to the A. thaliana SKU5 (SKEWED ROOT 5). To our knowledge, the role of the former protein has not been studied yet whereas SKU5 was shown to play a role in root directional growth [ 55 ] and more recently in the spaceflight response [ 56 ].…”
Section: Discussionmentioning
confidence: 99%
“…These include a complex network of processes including polar auxin transport and cytoskeletal dynamics [40,42]. A recent study in the ISS, using two mutants of skewing behavior, affecting different cellular functions, concludes that genes related to skewing could play a prominent role in plant space ight adaptation [43].…”
Section: Discussionmentioning
confidence: 99%