research D’orenone blocks polarized tip growth of root hairs by interfering with the PIN2‐mediated auxin transport network in the root apex
D'orenone stops root hair growth by disrupting auxin transport, but adding auxin can reverse this.
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research Differential Auxin-Transporting Activities of PIN-FORMED Proteins in Arabidopsis Root Hair Cells
Different PIN proteins affect plant root hair growth by changing how auxin is transported.
research A Small Molecule Inhibitor Partitions Two Distinct Pathways for Trafficking of Tonoplast Intrinsic Proteins in Arabidopsis
Two distinct pathways direct proteins to vacuoles in Arabidopsis, affecting root hair growth and protein targeting.
research The TOR–Auxin Connection Upstream of Root Hair Growth
High energy boosts root hair growth in plants, while low energy stops it.
research Phosphatidylinositol‐specific phospholipase C2 functions in auxin‐modulated root development
A protein called PLC2 is important for the growth and development of plant roots influenced by auxin.
research CCDC22 and CCDC93, two potential retriever-interacting proteins, are required for root and root hair growth in Arabidopsis
CCDC22 and CCDC93 are essential for root and root hair growth in Arabidopsis.
research HOMEOBOX PROTEIN 24 mediates the conversion of indole‐3‐butyric acid to indole‐3‐acetic acid to promote root hair elongation
HB24 helps convert IBA to IAA, promoting root hair growth.
research Dissecting Hierarchies between Light, Sugar and Auxin Action Underpinning Root and Root Hair Growth
Light, sugar, and auxin together influence root and root hair growth in plants.
research SbbHLH85, a bHLH Member, Modulates Resilience to Salt Stress By Regulating Root Hair Growth in Sweet Sorghum
The SbbHLH85 protein helps sweet sorghum grow more root hairs but makes the plant more sensitive to salt.
research Functional identification of the phosphorylation sites of Arabidopsis PIN-FORMED3 for its subcellular localization and biological role
Phosphorylation of certain parts of the PIN3 protein is crucial for its role in plant root growth and response to gravity.
research ROOT HAIR DEFECTIVE SIX ‐LIKE 4 (RSL 4) promotes root hair elongation by transcriptionally regulating the expression of genes required for cell growth
The protein RSL4 is crucial for making root hairs longer by controlling genes related to cell growth.
research Integration of Ethylene and Auxin Signaling and the Developmental Consequences of Their Crosstalk
Ethylene and auxin hormones interact in complex ways that are essential for plant growth and development.
research Author response: Plant Trans-Golgi Network/Early Endosome pH regulation requires Cation Chloride Cotransporter (CCC1)
CCC1 is essential for pH balance and normal cell function in plants.
research Auxin and ethylene: collaborators or competitors?
Auxin and ethylene hormones both work together and against each other to control plant growth.
research Mycorrhiza stimulates root-hair growth and IAA synthesis and transport in trifoliate orange under drought stress
Mycorrhiza helps trifoliate orange grow better roots and handle drought.
research A glutathione-dependent control of the indole butyric acid pathway supports Arabidopsis root system adaptation to phosphate deprivation
Glutathione helps Arabidopsis roots adapt to low phosphate by regulating a specific growth pathway.
research RoPod, a customizable toolkit for non-invasive root imaging, reveals cell type-specific dynamics of plant autophagy
RoPod helps study plant root cell changes and autophagy with minimal stress.
research A volatile producing Bacillus subtilis strain from the rhizosphere of Haloxylon ammodendron promotes plant root development
Bacillus subtilis strain WM13-24 helps plant root growth through volatile compounds.
research A volatile producing Bacillus subtilis strain from the rhizosphere of Haloxylon ammodendron promotes plant root development
The conclusion is that certain chemicals from Bacillus subtilis help improve plant root growth through a hormone-related process.
research The peach RGF/GLV signalling peptide pCTG134 is involved in a regulatory circuit that sustains auxin and ethylene actions
The peach gene pCTG134 helps control the interaction between auxin and ethylene hormones during fruit ripening.
research Differential cold stress intensities drive unique morphological and transcriptomic changes in Zea mays root hairs
Maize root hairs adapt differently to mild and severe cold, with mild stress allowing some growth and severe stress stopping growth to focus on defense.
research Decision letter: Plant Trans-Golgi Network/Early Endosome pH regulation requires Cation Chloride Cotransporter (CCC1)
CCC1 is essential for ion balance and proper plant cell function.
research Editor's evaluation: Plant Trans-Golgi Network/Early Endosome pH regulation requires Cation Chloride Cotransporter (CCC1)
CCC1 is crucial for pH balance in plant cells, affecting growth and stress tolerance.
research Gene variants associated with acne vulgaris presentation and severity: a systematic review and meta-analysis
Certain gene variants can influence acne risk and severity.
research Moderate water stress in rice induces rhizosheath formation associated with abscisic acid and auxin responses
Moderate water stress helps rice form rhizosheaths by affecting hormone responses, which may aid in breeding drought-resistant rice.
research Root Hair Growth and Development in Response to Nutrients and Phytohormones
research The Peach RGF/GLV Signaling Peptide pCTG134 Is Involved in a Regulatory Circuit That Sustains Auxin and Ethylene Actions
The peach gene CTG134 helps control the interaction between auxin and ethylene, which could lead to new agricultural chemicals.
research RAPID ALKALINIZATION FACTOR 22 is a key modulator of the root hair growth responses to fungal ethylene emissions in Arabidopsis
RALF22 is essential for root hair growth in response to fungal emissions in Arabidopsis.
research Impacts of iron on phosphate starvation‐induced root hair growth in Arabidopsis
Iron affects root hair growth in Arabidopsis during phosphate deficiency by influencing auxin signaling and vesicle trafficking.
research Physiologic functions of PP2A: Lessons from genetically modified mice
Mice studies show that Protein Phosphatase 2A is crucial for cell growth, development, and disease prevention.