Association·nasa
Spaceflight accelerates root secondary cell wall formation
Spaceflight environment leads to more intense labeling of xylem-enriched unsubstituted xylan backbone epitopes, indicating accelerated root secondary cell wall formation.
Confidence
80%
active
Evidence Quote
“Spaceflight environment accelerated root secondary cell wall formation indicated by increased xylan epitope labeling”
Relationship
spaceflight increases Root secondary cell wall formation
Connections (7)
Spaceflight alters plant gene expressionAssociation
Spaceflight increases xylan backbone epitope labeling in xylem cellsAssociation
Spaceflight environment mediates Arabidopsis root cell wall changes via glycomic and immunohistochemical pathwaysInferenceChain
Multimodal and procedural validation from germination to cell wall glycome profilingInferenceChain
Cell wall modifications and gravitational adaptation shape plant spaceflight responsesInferenceChain
Spaceflight alters plant cell wall structure and organization via transcriptomic and developmental mechanismsInferenceChain
Mechanisms of spaceflight-induced root cell wall changesInferenceChain