Association·nasa
Gravitational and magnetic field variations synergize to alter Arabidopsis transcriptome
Claim that simultaneous gravitational and magnetic field variations together cause subtle alterations in the global transcriptional state of Arabidopsis callus cultures.
Confidence
90%
active
Evidence Quote
“Gravitational and magnetic field variations synergize to cause subtle variations in the global transcriptional state of Arabidopsis in vitro callus cultures”
Connections (7)
Synergistic effects of gravity and magnetic field on Arabidopsis transcriptomeInferenceChain
Gravity and magnetic field changes influence gene expression in ArabidopsisAssociation
Fine-tuning of global transcriptome through key gene adaptationFactor
Structural gene response in cell wall and cytoskeleton under hypogravityFactor
Biosynthetic, secondary metabolism, and thylakoid-related gene expression under high magnetic fieldsFactor
Secondary metabolism, cell wall biosynthesis and stress/defense gene expressionFactor
Synergistic and fine-tuned transcriptome adaptation to gravity and magnetic variationInferenceChain
Evidence
“Compressed GEDI analysis files including cluster lists of probe sets and their expression ratios for each condition support detection of subtle global transcriptome adaptation patterns in Arabidopsis.”
How do gravity and magnetic field changes alter Arabidopsis transcriptome?