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Modulating BMP activity changes the number, size, shape, and type of ectodermal organs.

Different types of stem cells exist within individual skin layers, and they can adapt to damage, transplantation, or tumor growth. These cells are regulated by their environment and genetic factors. Tumor growth is driven by expanding, genetically altered cells, not long-lived mutant stem cells. There's evidence of cancer stem cells in skin tumors. Other cells, bacteria, and genetic factors help maintain balance and contribute to disease progression. A method for growing mini organs from single cells has been developed.

Blocking the Wnt pathway could lead to new treatments for cancer and tissue repair but requires careful development to avoid side effects.

Transit-amplifying cells are crucial for tissue repair and can contribute to cancer when they malfunction.

The skin and thymus develop similarly to protect and support immunity.

Vitamin D receptor is important for regulating hair growth and wound healing in mice.

Stem cells from umbilical cords can help regrow hair in mice with hair loss.

Certain RNA molecules are important for the development of wool follicles in sheep.

A gene deletion causes the "hairless" trait in Iffa Credo rats.

Hair thinning causes stem cell loss through a process involving Piezo1, calcium, and TNF-α.

Vitamin C deficiency changes gene expression, affecting skin and hair health.

Cactus extract from Notocactus ottonis may help promote hair growth.

Researchers found a way to grow cashmere goat hair cells in a lab and discovered that certain conditions improve these cells' growth and characteristics.

Suaeda glauca and its compounds could be new treatments for hair loss.

Abnormal gene expression related to keratin causes hair loss in certain mice.

Melatonin can increase cashmere yield by altering gene expression and restarting the growth cycle early.

Removing vitamin D and calcium receptors in mice skin cells slows down skin wound healing.

Melatonin helps grow more secondary hair follicles in young goats, improving cashmere production.

Activating the Sonic hedgehog gene in mice can start the hair growth phase.

Human skin has multiple layers and functions, with key roles in protection, temperature control, and appearance.

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.

The gene Tfap2b is essential for creating a type of stem cell in zebrafish that can become different pigment cells.

The document concludes that understanding the sebaceous gland's development and function is key to addressing related skin diseases and aging effects.

Mutations in the DSG4 gene cause fragile, sparse hair in humans, mice, and rats.

The vitamin D receptor can act without its usual activating molecule, affecting hair growth and skin cancer, but its full range of actions is not well understood.

Mutations in TBX3 cause horses to have more even hair color instead of Dun camouflage.

A two-step method was created in 2015 to make more cells that help with hair growth, but they need to be combined with other cells for 4 days to actually form new hair.

Foxn1 gene regulation is crucial for thymus development but not for hair growth.

Basonuclin 2 is vital for the development of facial bones, hair follicles, and male germ cells in adult mice, and its absence can lead to dwarfism and abnormal follicles.

A gene mutation in mice causes increased mast cells and disorganized hair follicles in their skin.