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The document concludes that the human keratin gene cluster is complex, with a need for updated naming to reflect over 50 functional genes important for hair and skin biology.

Merkel cells may have roles in sensing magnetic fields, creating fingerprints, Reiki energy healing, passing on environmental information to offspring, and influencing hair shape.

Trichoscopy helps diagnose hair and scalp disorders in dark-skinned people by identifying unique patterns.

Melatonin directly affects mouse hair follicles and may influence hair growth.

Reflectance confocal microscopy can help tell apart scarring from non-scarring hair loss.

Melatonin receptors in hair follicles help regulate hair growth and could treat hair loss.

Scalp involvement is common in pemphigus and can lead to hair loss, with the severity of scalp lesions linked to overall disease severity.

Trichoscopy is a quick, cost-effective tool for diagnosing different hair loss conditions.

μ-opiate receptors in skin cells may affect skin health and healing.

Dogs have varying numbers of touch-sensitive Merkel cells in different skin areas, with most in the oral mucosa and facial skin, unrelated to age, sex, breed, or color.

Researchers found a white halo around hair in most patients with a specific type of hair loss, which helps in early diagnosis and treatment.

A woman's hair loss was initially mistaken for a common hair loss condition but was later found to be caused by breast cancer cells in her scalp.

Dermatoscopy is useful for identifying different hair and scalp conditions and can reduce the need for biopsies.

Human sweat glands have a type of stem cell that can grow well and turn into different cell types.

The skin is the largest organ, protecting the body, regulating temperature, and producing hormones.

Sweat gland development involves two unique skin cell programs and a temporary skin environment.

Different types of stem cells and their environments are key to skin repair and maintenance.

Some cases of folliculotropic mycosis fungoides may progress slowly and not need aggressive treatment.

Nanoparticles can improve skin treatments by better targeting hair follicles, but more research is needed for advancement.

The skin's layers protect, sense, and regulate the body's internal balance, but can be prone to cancer.

Epidermal stem cells help heal severe skin wounds and have potential for medical treatments.

Cell death shapes skin stem cell environments, affecting inflammation, repair, and cancer.

Telocytes might help with skin repair and regeneration.

Different types of stem cells in hair follicles play unique roles in wound healing and hair growth, with some stem cells not originating from existing hair follicles but from non-hair follicle cells. WNT signaling and the Lhx2 factor are key in creating new hair follicles.

Understanding where cancer cells come from helps create better prevention and treatment methods.

Activating the GDNF-GFRα1-RET signaling pathway could potentially promote skin and limb regeneration in humans and could be used to treat hair loss and promote wound healing.

Blood-derived CD34+ cells speed up healing, reduce scarring, and regrow hair in skin wounds.

Mouse stem cells from hair follicles can improve wound healing and reduce scarring.

GPR39 is linked to certain cells in the sebaceous gland and helps with skin healing.

Nuclear hormone receptors play a significant role in skin wound healing and could lead to better treatment methods.