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Certain genes control the color of human hair by affecting pigment production.

Hair loss involves immune responses, inflammation, and disrupted signaling pathways.

The conclusion is that skin and hair patterns are formed by a mix of cell activities, molecular signals, and environmental factors.

Increased PPARGC1α relates to hair thinning in common baldness.

The research found that the molecule lncRNA-H19 helps hair follicle cells grow by affecting certain cell pathways in cashmere goats.

Scientists developed a way to isolate sweat glands from the scalp during hair transplants, keeping them alive for 6 days for research and cosmetic uses.

Different ectodermal organs like hair and feathers regenerate differently, with specific stem cells and signals involved in their growth and response to the environment.

Fibroblast growth factors are crucial for hair follicle development and regeneration.

The HoxC gene cluster and its enhancers are essential for developing hair and nails in mammals.

Mice with LSS deficiency showed hair loss and cataracts, similar to humans, and can help in understanding and treating this condition.

Chrysanthemum zawadskii extract may be a better treatment for hair loss than Minoxidil.

Too much β-catenin activity can mess up the development of mammary glands and make them more like hair follicles.

Certain bacteria can enhance skin regeneration.

Transit-amplifying cells are crucial for tissue repair and can contribute to cancer when they malfunction.

Non-invasive methods can effectively diagnose and manage alopecia areata.

Researchers created a potential skin substitute using a biodegradable mat that supports skin cell growth and layer formation.

Calcium microcapsules are better for long-term use in artificial dermal papilla, while barium microcapsules are good for short-term.

Gene therapy helped rats with a specific type of rickets grow hair without severe inflammation.

Hair follicle development in cashmere goats involves dynamic changes in proteins and metabolites, with key roles for oxytocin, MAPK, and Ca2+ pathways.

Different scaffold patterns improve wound healing and immune response in mouse skin, with aligned patterns being particularly effective.

Both human and animal-derived small extracellular vesicles speed up skin healing equally well.

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

The nanocomposite films with vitamins and nanoparticles are promising for fast and effective burn wound healing.

New method efficiently isolates hair growth cells from newborn mouse skin.

Artificial skin development has challenges, but new materials and understanding cell behavior could improve tissue repair. Also, certain growth factors and hydrogel technology show promise for advanced skin replacement therapies.

Different types of skin cells have unique genetic markers that affect how likely they are to spread cancer.

BLIMP1 is essential for skin maintenance but not for defining sebaceous gland progenitors.

Eating glucoraphanin can help prevent psychosis in offspring whose mothers had immune system activation.

Genetically-altered adult stem cells can help in wound healing and are becoming crucial in regenerative medicine and drug design.

Certain human skin cells marked by CD44 and ALDH are rich in stem cells capable of long-term skin renewal.