Spaceflight increases unsubstituted xylan backbone labeling in xylem cells

Association·nasa

Claim that xylan backbone epitopes (CCRC-M140 etc.) are more intensely labeled in xylem cells of root cross-sections from space-grown seedlings than ground controls.

Confidence

90%

active

Evidence Quote

“Xylan backbone epitopes more intensely labeled in xylem cells of space-grown roots than ground controls.”

Relationship

Space-grown Arabidopsis seedlings increases xylan backbone epitope

Arguments

Space-grown Arabidopsis seedlingssubject

Root cell wall non-cellulosic epitope compositionobject

Connections (4)

Mechanisms underlying spaceflight-induced Arabidopsis root cell wall epitope changesInferenceChain

Spaceflight alters plant gene expressionAssociation

Root secondary cell wall formationFactor

Spaceflight increases xylan backbone epitope labeling in xylem cellsAssociation