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Curcumin may help reverse aging by targeting specific genes.

Cyclosporin A promotes hair cell growth and affects protein kinase C levels.

Pangolins have lost some skin-related genes, but kept others, showing complex skin evolution.

PPARγ is essential for maintaining healthy skin, controlling inflammation, and ensuring proper skin barrier function.

Nuclear shape and chromatin changes affect gene expression in skin cell differentiation.

New gene identification techniques have improved the understanding and classification of inherited hair disorders.

YH0618 helps reduce chemotherapy-induced hair loss by targeting specific proteins and pathways.

Understanding and manipulating epigenetic changes can potentially lead to human organ regeneration therapies, but more research is needed to improve these methods and minimize risks.

Certain transcription factors are key in controlling skin stem cell behavior and could impact future treatments for skin repair and hair loss.

The review concludes that innovations in regenerative medicine, tissue engineering, and developmental biology are essential for effective tissue repair and organ transplants.

The tumor suppressor gene FLCN affects mitochondrial function and energy use in cells.

A new non-invasive method can analyze skin mRNA to understand skin diseases better.

Understanding hair follicles through various models can help develop new treatments for hair disorders.

White hair grows thicker and faster than black hair due to higher activity of growth-related genes and proteins.

Identified genes linked to male-pattern baldness may help develop new treatments.

Hair disorders are caused by a complex mix of biology, genetics, hormones, and environmental factors, affecting hair growth and leading to conditions like alopecia.

Different immune responses cause hair loss in scalp diseases, with unique patterns in scalp psoriasis possibly protecting against hair loss.

Removing a methyl group from the ITGAV gene speeds up bone formation in a specific type of bone disease model.

The research showed how melanocytes develop, move, and respond to UV light, and their stem cells' role in hair color and skin cancer risk.

Some wound-healing cells can turn into fat cells around new hair growth in mice.

Removing Mediator 1 from certain mouse cells causes teeth to grow hair instead of enamel.

Wnt1a helps keep cells that can grow hair effective for potential hair loss treatments.

Cysteine-rich keratins evolved independently in mammals, reptiles, and birds for hard skin structures like hair, claws, and feathers.

Follistatin and LIN28B together improve the ability of inner ear cells in mice to regenerate into hearing cells.

Hair follicles could be used to noninvasively monitor our body's internal clock and help identify risks for related diseases.

Tectoridin helps human hair cells grow and makes mouse hair longer, suggesting it could treat hair loss.

Human hair keratins K85 and K35 create unique filament patterns important for early hair formation.

Most Hairless gene mutations reduce its ability to work with the Vitamin D Receptor, which might explain a certain type of hair loss.

The genes KRT25 and SP6 affect curly hair in horses, with KRT25 also causing hair loss. If both genes are mutated, the horse gets curly hair and hair loss. KRT25 can hide the effect of SP6.

Hydrangea serrata extract may promote hair growth and improve hair health.