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

Spaceflight increases unsubstituted xylan backbone labeling in xylem cells — NASA Knowledge Graph

Spaceflight increases unsubstituted xylan backbone labeling in xylem cells

Evidence Quote

Relationship

Arguments

Connections (4)

Spaceflight increases unsubstituted xylan backbone labeling in xylem cells — NASA Knowledge Graph

Spaceflight increases unsubstituted xylan backbone labeling in xylem cells

Evidence Quote

Relationship

Arguments

Connections (4)