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The Agouti gene influences pigmentation and may have a developmental role in deer mice.

Major depression disorder increases the risk of alopecia areata, and vice versa.

High glycine–tyrosine keratin-associated proteins help make hair strong and maintain its shape.

Some people grow more hair on one side of their scalp, possibly due to genetics, behavior, or environment.

Different hair fiber development might explain why hair loss severity varies in patients with a specific genetic mutation, and treatments that thicken hair could help.

Digit ratio likely doesn't predict male hair loss.

Some human genetic markers work for genetic studies in pig-tailed and stump-tailed macaques, which can help in their conservation.

Alopecia areata may be linked to atopic diseases like eczema, asthma, and allergies.

Curly and straight hair differ in how their internal fibers are arranged.

The study found that alopecia areata and hypothyroidism increase the risk of each other, but androgenetic alopecia and hypothyroidism do not.

Combination therapies are more effective for treating androgenetic alopecia than single treatments.

The study found increased skin pigmentation and variable melanocyte density in a patient with Addison's disease.

Seven genetic variations in sheep's DSG4 gene are linked and affect wool traits.

Adjusting AI training data for skin condition distribution improves accuracy across different clinical settings.

A gene called HDAC9 might be a new factor in male-pattern baldness.

Some people with heavy hair shedding might actually have a hidden form of alopecia, which can be identified by specific hair changes.

Animal and mathematical models help understand and develop treatments for alopecia areata.

Natural hair reflects identity and history, while modifications signal social pressures.

Generative AI tools like GPT-4o can effectively automate SALT scoring for alopecia areata, matching clinician accuracy.

Alopecia areata has a complex genetic basis that was not fully understood as of 2001.

Pangenome analysis reveals key genes for pig adaptation and traits, aiding genetic improvement.

Hairlessness in mammals is due to complex genetic changes in both genes and regulatory regions.

Advertising mixes truth and imagination to persuade consumers that products are essential.

The 3D structure of a key hair protein was modeled, revealing specific helical structures and stabilization features.

Filaggrin mutations are linked to atopic dermatitis and help explain how genetics and environment affect the disease.

Tandem repeats significantly influence hair color, especially darker shades, across different ancestries.

Combining PRP with other treatments may improve hair growth more than PRP alone.

The improved algorithm enhances low-dose CT image quality significantly better than other methods.

People with rheumatoid arthritis have a higher risk of developing alopecia areata.