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High energy boosts root hair growth in plants, while low energy stops it.

A protein called PLC2 is important for the growth and development of plant roots influenced by auxin.

Phosphorylation of certain parts of the PIN3 protein is crucial for its role in plant root growth and response to gravity.

Auxin and ethylene hormones both work together and against each other to control plant growth.

Different PIN proteins affect plant root hair growth by changing how auxin is transported.

The peach gene pCTG134 helps control the interaction between auxin and ethylene hormones during fruit ripening.

Ethylene and auxin hormones interact in complex ways that are essential for plant growth and development.

Plant root hair growth is mainly controlled by hormones like auxin and ethylene, which promote growth, while others like brassinosteroid inhibit it.

The plant hormone auxin activates the TOR pathway, affecting gene expression related to growth and cell size.

The peach gene CTG134 helps control the interaction between auxin and ethylene, which could lead to new agricultural chemicals.

The conclusion is that certain chemicals from Bacillus subtilis help improve plant root growth through a hormone-related process.

Bacillus subtilis strain WM13-24 helps plant root growth through volatile compounds.

Mycorrhizal fungi and shading improve tea plant growth and nutrient uptake by changing hormone levels and gene expression.

Peps help Arabidopsis plants grow more root hairs by affecting specific genes and calcium signaling.

Fungi-produced compounds can change plant root growth.

Melatonin helps wheat plants resist drought by improving their root and root hair growth.

Fusarium sp. strain K-23 helps Arabidopsis plants grow better in salty soil by promoting root hair growth.

The SbbHLH85 protein helps sweet sorghum grow more root hairs but makes the plant more sensitive to salt.

AMF initially inhibits but later promotes citrus root hair growth by regulating auxin levels.

Two distinct pathways direct proteins to vacuoles in Arabidopsis, affecting root hair growth and protein targeting.

High levels of auxin increase root hair growth by activating RSL2 and producing ROS, while high phosphate levels hinder growth by repressing RSL2.

Plant root hair growth is controlled by the hormone auxin, which affects the production of certain oxygen-related molecules through a specific process.

ERULUS controls root hair growth by regulating cell wall composition and pectin activity.

Phospholipase A2 is necessary for the correct placement of PIN proteins in plant roots, affecting root growth.

CLE40 and CRN/CLV2 pathways have opposite effects on root growth in Arabidopsis.

Glutathione helps Arabidopsis roots adapt to low phosphate by regulating a specific growth pathway.

GmMAX3b gene in soybeans boosts nodulation and affects hormone levels.

Ro stress hindered ginseng root growth and ginsenoside production, but increased certain hormones and affected gene regulation related to plant growth and stress responses.

Bacillus subtilis helps plants get more phosphorus and grow better roots.

Using certain plant growth regulators together improves the cloning of the medicinal plant Eclipta alba.