DRO1 influences root system architecture

Association·nasa

Claim that DRO1 influences the root system architecture in Arabidopsis and Prunus species.

Confidence

80%

active

Evidence Quote

“DRO1 influences root system architecture in Arabidopsis and Prunus”

Relationship

DRO1 influences root system architecture

Arguments

LAZY2 genesubject

LAZY2 geneobject

Connections (3)

Conserved gene family coordinates branch and root orientation via gravity and auxin pathwaysInferenceChain

TAC1 promotes outward lateral shoot orientationAssociation

Cross-species inference: TAC1, LAZY1, and DRO1 gene family controls shoot and root orientation via gravity and auxin pathwaysInferenceChain

Evidence

“Reference for DRO1 influencing root system architecture in Arabidopsis and Prunus species”

Guseman, J. M. et al. (2017). DRO1 influences root system architecture in Arabidopsis and Prunus species.

“Reference for DEEPER ROOTING 1 (DRO1) controlling root system architecture and increasing rice yield under drought”

(2013). Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions.

“Reference for evolution and mutations of DRO1-like genes in wheat and gain/loss of auxin response elements”

(2019). Evolution of Deeper Rooting 1-like homoeologs in wheat entails the C-terminus mutations as well as gain and loss of auxin response elements.

“Reference on DEEPER ROOTING 1 (DRO1) role in rice root system architecture and drought yield.”

Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions. Nat. Genet. 45, 1097–102 (2013).

“Reference describing DRO1-like gene evolution and auxin response elements in wheat.”

Evolution of Deeper Rooting 1-like homoeologs in wheat entails the C-terminus mutations as well as gain and loss of auxin response elements. PLOS ONE 14, e0214145 (2019).