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Hair growth and health are influenced by factors like age, environment, and nutrition, and are controlled by various molecular pathways. Red light can promote hair growth, and understanding these processes can help treat hair-related diseases.

Turing patterns are now recognized as important in developmental biology.

EDA signaling is linked to skin disorders, various cancers, and liver disease.

Scientists made structures that look like human hair follicles using stem cells, which could help grow hair without using actual human tissue.

Keeping β-catenin levels high in mammary cells disrupts their development and branching.

The analysis of a large pilomatricoma revealed five distinct areas with different gene activity related to hair growth and tumor development.

Too much β-catenin activity can mess up the development of mammary glands and make them more like hair follicles.

A gene called APCDD1, which controls hair growth, is found to be faulty in a type of hair loss called hereditary hypotrichosis simplex.

The document explains how to create detailed biological pathways using genomic data and tools, with examples of hair and breast development.

Foxi3 expression in developing teeth and hair is controlled by the ectodysplasin pathway.

The research provides a gene-based framework for hair biology, highlighting the Hippo pathway's importance and suggesting links between hair disorders, cancer pathways, and the immune system.

NF-κB is crucial for different stages and types of hair growth in mice.

A genetic change in the EDAR gene causes the unique hair traits found in East Asians.

The exact identity of skin stem cells and how skin cells differentiate is not fully known.

The conclusion is that proper signaling is crucial for hair growth and development, and errors can lead to cancer or hair loss.

A20 protein is crucial for normal skin and hair development.

Sweat gland development involves two unique skin cell programs and a temporary skin environment.

A new tool can analyze hair to detect changes due to hormones, genetics, and aging.

Deleting the EDAR gene in Cashmere goats affects genes and proteins related to hair growth.

Pilose antler extracts help hair growth by activating hair follicle stem cells.

Blocking β-catenin in skin cells improves hair growth during wound healing.

Blocking Wnt signaling in young mice causes thymus shrinkage and cell loss, but recovery is possible when the block is removed.

EGF and KGF signalling prevent hair follicle formation and promote skin cell development in mice.

The research found key RNA networks that may control hair growth in cashmere goats.

Key genes linked to hair growth and cancer were identified in hairless mice.

Dermal papilla cells are key for hair growth and color, influencing hair type and size, and their interaction with stem cells could help treat hair loss and color disorders.

Wnt10b makes hair follicles bigger, but DKK1 can reverse this effect.

Proper control of β-catenin activity is crucial for development and preventing diseases like cancer.

The conclusion is that certain cell interactions and signals are crucial for hair growth and regeneration.

Future research on ectodysplasin should explore its role in diseases, stem cells, and evolution, and continue developing treatments for genetic disorders like hypohidrotic ectodermal dysplasia.