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Using neurohormones to control keratin can lead to new skin disease treatments.

Using longer PEG chains helps nanoparticles penetrate hair follicles better, improving drug delivery for conditions like alopecia.

A new method accurately measures amino acids in treated hair, showing bleaching reduces amino acids while protein treatments increase them.

Lipids are important for healthy hair, but their exact role is not fully understood and needs more research.

Human hair keratins can self-assemble and support cell growth, useful for biomedical applications.

Cosmetic procedures can harm hair, but damage can be minimized with knowledge and care; however, once hair is damaged, it cannot be reliably repaired.

Keratin hydrogel from human hair is a promising biocompatible material for soft tissue fillers.

UVB radiation changes the chemical makeup and dries out human hair but doesn't alter its appearance or texture.

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

Keratin's mechanical properties are influenced by hydrogen bonds and secondary structure, and can be improved with the SPD-2 peptide.

Permanent waving weakens hair by altering its protein structure.

Disulfide bonds in keratin fibers break more easily under stress, especially when wet, affecting fiber strength.

Hair fiber research combines multiple sciences to improve hair care products.

Perming significantly changes hair's molecular structure, while shampoo and conditioner do not.

AP collagen peptides improve hair elasticity and gloss.

Low-molecular weight hyaluronate can make damaged hair stronger.

Human hair is made up of different keratins, some strong and some weak, with specific types appearing at various stages of hair growth.

Keratoacanthoma comes from hair follicle cells.

Human hair keratins K85 and K35 create unique filament patterns important for early hair formation.

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

The KRT84 gene is linked to better wool quality in Gansu Alpine Fine-wool sheep.

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

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

Hair can't be reliably repaired once damaged; prevention and proper product use are key to maintaining hair health.

The document concludes that understanding the genes and pathways involved in hair growth is crucial for developing treatments for hair diseases.

Hair stiffness is higher when it has more para-like cortical cells.

Vitamin D3 analogs can promote hair growth in mice genetically prone to hair loss.

S100A3 protein is crucial for hair shaft formation in mice.

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

Chemical hair straightening improves smoothness and shine but may cause side effects, suggesting a need for safer methods.