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Human hair has different protein structures in its cuticle and cortex.

The model helps understand how wool fiber structure affects its strength and flexibility.

Oxidative hair dye changes hair color and structure but doesn't weaken it.

Feed restriction in sheep leads to finer wool fibers but may reduce wool quality.

Human hair keratin fibers have a detailed nano-scale structure that changes with different conditions.

Miz1 is essential for proper hair structure and growth.

The conclusion is that substances can penetrate hair fibers through multiple pathways, including both the cell membrane complex and the non-keratinous parts.

Guasha changed rat skin appearance and blood vessels temporarily without affecting certain nerve proteins or fiber structure.

Researchers found that the most reachable bonds in wool fibers are near the ends of certain proteins, which help stabilize the fiber's structure.

Antler velvet hair and body hair of red deer have different structures that help with protection and insulation.

The gene KAP22-1 affects wool yield and fiber shape in sheep.

A new goat gene affects cashmere fiber thickness; certain variations can make the fibers coarser.

Wool and hair fibers absorb moisture similarly due to their keratin structure, with the amount of non-crystalline areas affecting the moisture uptake.

Mummy hair from the Taklamakan desert has calcium and phosphorus inside.

The study found that variations in hair protein genes are likely due to evolutionary deletions or duplications.

SV40 T antigen in hair follicles causes abnormal hair and health issues in mice.

Understanding hair biology is key to developing better treatments for hair and scalp issues.

Understanding wool keratin-associated proteins in sheep can help improve wool quality through selective breeding.

Hair fibers have fractal patterns with properties related to the golden mean, which may affect their functionality.

The G60S Connexin43 mutation causes hair growth issues and poor hair quality in mice, similar to human ODDD patients.

AFM can diagnose hair disorders by revealing detailed hair surface changes.

Hair's strength and flexibility come from its protein structure and molecular interactions.

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

Genes affecting wool fiber thickness in Angora rabbits were identified, which could help breed finer wool.

Different ethnicities and treatments affect human hair strength and structure.

The research found specific proteins that affect fiber characteristics and hair growth in sheep and goats.

Understanding how keratin structures in hair are arranged and interact is key for creating methods to extract and purify them.

Key proteins and pathways regulate wool fiber diameter in Alpine Merino sheep.

The research identified key proteins that affect wool fiber thickness in Angora rabbits.

GPRC5D is linked to the formation of hair, nails, and certain tongue areas.