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Multi-walled carbon nanotubes can enhance root hair growth in certain plants by affecting nitric oxide and ethylene pathways, but only at specific concentrations.

Mitochondrial problems in diabetic nerve damage might cause pain by lowering the production of certain nerve-related steroids.

Human hair follicle cells can be used to help heal and replace skin.

Keratin's mechanical properties are influenced by hydrogen bonds and secondary structure, and can be improved with the SPD-2 peptide.

MCSP may help identify and regulate skin stem cells, affecting hair growth and regeneration.

Neuropilin 2 may be a biomarker for melanoma and affects melanocyte behavior.

The research found that specific stem cells maintain skin gland openings and that disrupting their activity can cause blockages or early cancer signs, indicating a need for targeted treatments.

Nestin marks cells that can become a specific type of skin cell in hair follicles of both developing and adult mice.

NIR-II imaging effectively tracked stem cells that helped repair facial nerve defects in rats.

Cytokeratin 19 and cytokeratin 15 are key markers for monitoring the quality and self-renewing potential of engineered skin.

HAP stem cells can repair nerves, grow hair follicle nerves, and become heart muscle cells, making them useful for regenerative medicine.

Ng2+ perivascular cells in mouse skin come from specific fibroblast types and help in tissue repair.

Neural crest cells could be used in regenerative medicine due to their ability to become different cell types.

A wearable patch speeds up healing of chronic wounds by monitoring and treating them.

Nanoparticles penetrate hair follicles better when their size matches the cuticula thickness.

Atopic dermatitis patients have much higher acetylcholine levels in their skin, which may cause itching.

Hair growth drugs and epidermal growth factor do not change the calcium binding site gradient in hair follicles.

S100A4 and S100A6 proteins may activate stem cells for hair follicle regeneration and could be potential targets for hair loss treatments.

Adult mouse skin contains stem cells that can create new hair, skin, and oil glands.

Potential compounds may inhibit hair loss by targeting a non-androgen pathway.

Cell polarity signaling controls tissue mechanics and cell fate, with complex interactions and varying pathways across species.

HAP stem cells in hair follicles could help repair nerves and spinal cords.

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

Hair movement can indicate hair quality and health.

Human hair's strength comes from a honeycomb-like structure and macrofibrils.

Human hair is complex and grows in cycles starting from embryonic life.

Different human hair keratin types have unique structures that affect how they dissolve and can be used to create self-tendons.

The hair follicle structure is more complex than thought, with new findings on protein formation.