Association·nasa
High gradient magnetic fields affect stress and secondary metabolism gene expression
Claim that high gradient magnetic fields, used to simulate μg* and 2 g* conditions, significantly affect expression of structural, abiotic stress, and secondary metabolism genes in Arabidopsis callus.
Confidence
80%
active
Evidence Quote
“High gradient magnetic fields (i.e. to create μg* and 2 g* conditions) have a significant effect, mainly on structural, abiotic stress genes and secondary metabolism genes”
Relationship
Magnetic field variation affects Structural, abiotic stress, and secondary metabolism gene expression
Arguments
Connections (5)
Synergistic effects of gravity and magnetic field on Arabidopsis transcriptomeInferenceChain
Mechanisms of GO enrichment patterns under altered gravity and magnetic fieldsInferenceChain
Biosynthetic, secondary metabolism, and thylakoid-related gene expression under high magnetic fieldsFactor
Synergistic and fine-tuned transcriptome adaptation to gravity and magnetic variationInferenceChain
Influence of experimental methodology on transcriptome resultsInferenceChain