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FER and TOR signaling help root hair growth in low temperature and low nitrate conditions.

GDNF helps grow hair and heal skin wounds by acting on hair stem cells.

GDNF signaling helps in hair growth and skin healing after a wound.

Activating TRPA1 reduces scarring and promotes tissue regeneration.

NGF-modified hair follicle stem cells may help treat Alzheimer's by improving brain function and reducing harmful proteins.

Light therapy on the brain shows promise for treating brain diseases and improving brain function.

Neuropeptides affect hair growth and could be used to control it.

Valproic acid and crocin together boost cell growth and may help treat nerve injuries.

Growth factor treatments are increasingly used in medicine but require more research to fully understand their mechanisms.

Different species have unique sensory adaptations to perceive their environments.

Imaging living plant cells shows dynamic changes in actin and endoplasmic reticulum linked to root hair growth.

Fibroblasts can be mistaken for neural cells, so functional validation is needed.

The conclusion is that a new method combining magnetic tweezers and traction force microscopy may help understand skin cell interactions and diseases.

Skin cell behavior is influenced by the tightness of nearby cells, affecting their growth and development.

Certain defective glucocorticoid receptor mutants move faster inside cell nuclei and work less effectively.

Transplanted rat hair follicles grew hair and had increased but not fully restored nerve connections in mice.

Rat hair follicle bulge cells can become nerve and glial cells, showing potential for neuroprotection.

ERK activation spreads between cells, influencing cell division and wound healing.

Meis2 is essential for touch sensation and nerve function in mice.

Activating TRPMLs helps human cells important for hair growth and increases hair growth in mice.

A specific mutation in Kras causes abnormal tissue changes by making a cell signal continuously active, which disrupts normal cell coordination.

Light can activate hair growth through a pathway from the eyes to hair follicles.

Activating TRPV4 in skin cells helps regrow hair in mice, possibly offering a treatment for hair loss.

TRPA1 is crucial for mechanical sensitivity in skin sensory neurons.

β-Catenin signaling is involved in brain cell growth after injury and could be a therapy target.

Brain-made chemicals can control nerve cell function differently in various parts of a mouse's brain, which may help us understand neurological conditions.

The study found that nerve signals are stronger when there are more connection points, but not necessarily denser, along the nerve's path in the spine.

The laser system helps study brain cell functions by precisely removing specific cells and observing changes.

Tissue stiffness affects hair follicle regeneration, and Twist1 is a key regulator.

Hair follicle stem cell exosomes help nerve regeneration.