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Scientists developed a method to grow human fetal skin and digits in a lab for 3-4 weeks, which could help study skin features and understand genetic interactions in tissue formation.

Carboxytherapy can improve skin conditions with few side effects, but results may vary and are not guaranteed.

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

Blocking RANK signaling might help treat metastatic melanoma, but more research is needed.

As skin cells mature, vitamin D receptor levels decrease while retinoid X receptor α levels increase.

HSPGs help control stem cell behavior, affecting hair growth and offering a target for hair loss treatments.

Keratin from hair and wool is used in medical materials for healing and drug delivery.

Keratin from human hair helps nerves heal faster.

A new microneedle patch made from hair proteins helps regrow hair faster and better than current treatments.

Human hair keratin can be used in many medical applications.

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

Keratin hydrogels can slowly release effective ciprofloxacin to prevent infections.

A cluster of sulfur-rich hair protein genes was found on chromosome 17.

Nonpalmoplantar skin cells can be made to express keratin 9 by interacting with palmoplantar fibroblasts.

A new keratin, hK6irs1, is found in all layers of the hair follicle's inner root sheath.

Alkylation of human hair keratin allows for adjustable drug release rates in hydrogels for medical use.

Hair keratin-associated proteins are essential for strong hair, with over 80 genes showing specific patterns and variations among people.

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

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

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

Keratin 79 marks a new group of cells that are key for creating and repairing the hair follicle's structure.

Hormones control keratin production in skin and hair.

KAP genes show significant genetic variability, but its impact on hair traits is unclear.

Chemical hair straightening changes hair proteins and mostly fixes broken bonds.

Disulfide bonds make keratin in hair stronger and tougher.

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

Genetic variations in hair keratin proteins exist but don't significantly affect hair structure.

Keratin peptides can change hair shape gently without harsh chemicals.

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

Mutations in the KRT85 gene cause hair and nail problems.