Central signaling via TOR integrates BCAA, C/N metabolism, and stress in AGR

Association·nasa

Claim that Target of Rapamycin (TOR) integrates signals from BCAA metabolism, carbon/nitrogen status, and stress signaling to modulate Arabidopsis responses to altered gravity.

Confidence

80%

active

Evidence Quote

“central signaling regulates spaceflight-induced stress responses...TOR signaling regulates autophagy and senescence, as well as resource reallocation mechanisms...BCAAs also affect TOR activity directly...modulate the response of plants to altered gravity”

Relationship

TOR (Target of Rapamycin) signaling integrates BCAA C N stress

Arguments

TOR (Target of Rapamycin) signalingsubject

Hypoxic response processesobject

Connections (5)

Literature-backed reasoning for transcriptome and pathway interpretationInferenceChain

Light signaling pathwayFactor

TOR centrality and integration in metabolic and stress signalingInferenceChain

BCAA metabolism affects TOR signalingAssociation

TOR as hub integrating signaling and metabolism in ArabidopsisInferenceChain

Evidence

“Reference concerning TOR kinase as a central hub for plant growth and metabolism”

(2019). Target of Rapamycin kinase: central regulatory hub for plant growth and metabolism