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High levels of ERK activity are key for tissue regeneration in spiny mice, and activating ERK can potentially redirect scar-forming healing towards regenerative healing in mammals.

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

Hair follicles have a more inactive cell cycle than other skin cells, which may help develop targeted therapies for skin diseases and cancer.

New regenerative techniques show promise for improving skin, healing wounds, and growing hair.

HFMs can help study hair growth and test potential hair growth drugs.

Synthetic polypeptides in cosmetics may help with anti-aging, but their effectiveness on real skin is uncertain.

African spiny mice can regenerate skin, hair, and cartilage, but not muscle, and their unique abilities could be useful for regenerative medicine.

Iron deficiency may contribute to hair loss.

Fibroblasts, cells usually linked to tissue repair, also help regenerate various organs and their ability decreases with age. Turning adult fibroblasts back to a younger state could be a new treatment approach.

Genes linked to fibrosis are more active in people with central centrifugal cicatricial alopecia.

Changthangi goats have specific genes that help produce Pashmina wool.

Non-thermal plasma treatment makes mouse skin thicker and increases growth factors without harming the tissue.

New insights into cell communication in psoriasis suggest innovative drug treatments.

Human stem cells were turned into cells similar to those that help grow hair and showed potential for hair follicle formation.

New therapies are being developed that target integrin pathways to treat various diseases.

Using certain small proteins with a growth factor and specific materials can increase the creation of neurons from stem cells.

15-lipoxygenase helps keep skin healthy by reducing inflammation.

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.

Mice genetically modified to produce more CD109 in their skin had less inflammation and better healing with less scarring.

Pig skin cells can turn into mesodermal cells but lose their ability to become neural cells.

A specific hair protein variant increases the spread of breast cancer and is linked to worse survival rates.

BMP2 and BMP7 have opposite roles in feather formation.

The experiment showed that human skin grown in the lab started to form early hair structures when special cell clusters were added.

Sp6 promotes tooth development by reducing follistatin levels.

Scientists made skin stem cells from other human cells with over 97% efficiency, which could help treat skin conditions.

Inflammation plays a key role in activating skin stem cells for hair growth and wound healing, but more research is needed to understand how it directs cell behavior.

Fetal-maternal stem cells in a mother's hair can help with tissue repair and regeneration long after childbirth.

Celsr1 is crucial for skin cell alignment, while Celsr2 has little effect on this process.

Hyaluronic acid and versican are important for skin healing and hair growth and might help in regenerative medicine.

MicroRNA-205 helps hair grow by changing the stiffness and contraction of hair follicle cells.