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The research suggests that autophagy-related genes might play a role in causing alopecia areata.

Hairless protein affects hair follicle structure by regulating the Dlx3 gene.

FP-1 is a key protein in rat hair growth, active only during the growth phase.

Targeting specific genes in certain pathways may help treat male pattern baldness.

Scientists created stem cells that can grow hair and skin.

The TGF-β family helps control how cells change and move, affecting skin, hair, and organ development.

An AI photographic device effectively tracked hair growth improvements in women treated for hair loss.

Heredity and hormones cause common hair loss, and topical minoxidil is the first recommended treatment.

Androgenetic alopecia is mainly caused by genetic factors and increased androgen activity, leading to hair follicle miniaturization.

The conclusion is that genetic testing is important for diagnosing and treating various genetic hair disorders.

ATP-dependent chromatin-remodeling complexes are crucial for gene regulation, cell differentiation, and organ development in mammals.

Thyroid function affects skin health, with a complex interaction between the two.

Genes linked to wool fineness in sheep have been identified.

Stem cells control their future role by changing ERK signal timing, affecting tissue regeneration and cancer.

The SA-MS hydrogel is a promising material for improving wound healing and skin regeneration in diseases like diabetes and skin cancer.

The Asiatic lion has very low genetic diversity and unique genetic traits, highlighting the need for its conservation.

The study suggests that analyzing DNA can help treat hair loss, but more research is needed.

Stromal stem cells may help heal wounds by becoming structural cells or affecting the immune system, but more research is needed to understand how.

Skin cells show flexibility in healing wounds and forming tumors, with potential for treating hair disorders and chronic ulcers.

Alopecia areata is an incurable autoimmune condition causing hair loss, with research aiming for better treatments.

Hairlessness in mammals is caused by combined changes in genes and regulatory regions.

Staphylococcus epidermidis A/C strains are more antibiotic-resistant and infection-adapted, while B strains thrive in hair follicles.

The lentiviral array can monitor and predict gene activity during stem cell differentiation.

Tissue environment greatly affects the unique epigenetic makeup of regulatory T cells, which could impact autoimmune disease treatment.

Chinese domestic goats have unique genetic traits due to domestication and geographic isolation.

Dermal papilla cells are key for hair growth and could help us understand and treat hair loss.

Grafted rodent and human cells can regenerate hair follicles, but efficiency decreases with age.

Human hair follicle stem cells can turn into multiple cell types but lose some of this ability after being grown in the lab for a long time.

Overexpressing Tβ4 in goats' hair follicles increases cashmere production and hair follicle growth.

PKC ε increases hair follicle stem cell turnover and may raise skin cancer risk.