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Keratins help protect cells, aid in cancer diagnosis, and influence cancer behavior and treatment.

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

Muscles and nerves that cause goosebumps also help control hair growth.

Mechanical forces are crucial for shaping cells and forming tissues during development.

PDRN, derived from salmon sperm, shows promise in healing wounds, reducing inflammation, and regenerating tissues, but more research is needed to understand its mechanisms and improve its use.

Poplar seed hairs grow from the placenta at the ovary base, with endoreduplication playing a key role in their development, and share similar cellulose synthesis processes with cotton fibers.

Fat cells are important for tissue repair and stem cell support in various body parts.

Hyaluronic acid and polycaprolactone improve skin regeneration, with polycaprolactone having a stronger effect on healing and tissue repair.

Certain genes are linked to the quality of cashmere in goats.

Hair follicle cells age faster and lose pigment due to less catalase, causing hair to turn gray.

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

Exosomal miRNAs from stem cells can help improve skin health and delay aging.

Using bioreactors, scientists can grow more skin stem cells that keep their ability to regenerate skin and hair.

Caspases are enzymes important for both cell death and various non-lethal cell functions, affecting head development and hair growth, with different caspases playing specific roles.

Cannabinoids like CBD and THC may help treat non-cancer skin diseases, but more research is needed.

Improving dermal papilla cells can help regenerate hair follicles.

Exosomes show promise for improving wound healing, reducing aging signs, preventing hair loss, and lightening skin but require more research and better production methods.

Hair follicle stem cells change states with age, affecting hair growth and aging.

Hormones and stretching both needed for nipple area skin growth in mice.

Hataedock treatment improved skin health and reduced atopic dermatitis symptoms by enhancing the skin barrier and reducing inflammation.

Nuclear hormone receptors play a significant role in skin wound healing and could lead to better treatment methods.

FA2H is essential for normal fur and sebum production in mice.

Dermal Papilla cells are a promising tool for evaluating hair growth treatments.

Skin problems can be caused or worsened by physical forces and pressure on the skin.

Two microRNAs affect hair follicle development in sheep by targeting specific genes.

Improving artificial vascular grafts requires better materials and surface designs to reduce blood clotting and support blood vessel cell growth.

The document concludes that mouse models are helpful but have limitations for skin wound healing research, and suggests using larger animals and genetically modified mice for better human application.

Artificial skin development has challenges, but new materials and understanding cell behavior could improve tissue repair. Also, certain growth factors and hydrogel technology show promise for advanced skin replacement therapies.

The WNT signaling pathway is important in many diseases and targeting it could offer new treatments.

K6hf is a unique protein found only in a specific layer of hair follicles.