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Thioglycolate lotions are the most popular method for permanent waving and hair straightening.

Wool follicles are complex, involving interactions between different cell types and structures.

16-MHA can restore the barrier and moisture of damaged hair, making it similar to undamaged hair.

Vitamin A deficiency changes cattle hair structure, while pregnancy may improve it, suggesting hair can indicate cattle health.

The article explains the genetic causes and symptoms of various hair disorders and highlights the need for more research to find treatments.

Genetic discoveries are key for understanding, diagnosing, and treating inherited hair and nail disorders.

Removing external lipids from hair reduces moisture and increases strength, while removing internal lipids decreases water permeability.

The document concludes that accurate diagnosis and understanding the type of hair disorder are crucial for treating hair loss in children.

Keratin films from human hair can potentially replace human nail plates for drug testing.

TGase 3 helps build hair structure by forming strong bonds between proteins.

Nanomaterials can improve hair care products and treatments, including hair loss and alopecia, by enhancing stability and safety, and allowing controlled release of compounds, but their safety in cosmetics needs more understanding.

Hair and wool have complex microscopic structures with microfibrils and varying cystine content.

Avoid chemical and physical damage to protect hair.

Researchers mapped and categorized specific keratin-associated protein genes on human chromosome 21q22.1.

A second domain of high sulfur KAP genes on chromosome 21q23 is crucial for hair structure.

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

Scientists discovered a unique hair protein, KAP24.1, with a special structure, found only in the upper part of hair cuticles.

High wool density in Rex rabbits is linked to specific gene activity affecting hair follicle development.

Different hair types in mammals are linked to variations in specific protein genes, with changes influenced by their living environments.

Sheep have a unique gene, KAP8-2, that humans don't have, which may affect wool properties.

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

Human hair protein extracts can protect skin cells from oxidative stress.

A specific protein in chicken embryos links early skin layers to feather development.

The study found nine new hair protein genes in human hair follicles.

The KRTAP11-1 gene promoter is crucial for specific expression in sheep wool cortex.

KAP genes are crucial for hair development and show both shared and unique traits in humans, chimpanzees, and baboons.

The KRTAP21-1 gene affects wool yield and can help improve wool production.

The study identified and characterized new keratin genes linked to hair follicles and epithelial tissues.

FGF-5 promotes Cashmere goat hair growth by increasing keratin genes and reducing certain LncRNA and target genes.

Runx1 helps control the KAP5 gene in human hair follicles.