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MicroRNAs are crucial for skin development, regeneration, and disease treatment.

Different genes and pathways are active in yak skin and hair cells, affecting hair growth and immune responses.

Personalized treatments for hair loss are becoming more effective by using genetic information.

Researchers created a model to understand heart aging, highlighting the role of microRNAs and identifying key genes and pathways involved.

New treatments for skin conditions in children include a preferred drug for birthmark reduction, proactive creams for eczema and vitiligo, a safe psoriasis medication, and special tissues and socks for eczema and fungal infections.

Stromal stem cells may help heal wounds by becoming structural cells or affecting the immune system, but more research is needed to understand how.

Fat from the body can help improve hair growth and scars when used in skin treatments.

Products should be called 'sperm-safe' only after thorough, well-designed tests.

Modified KGF mRNA helps skin cells grow and move faster, which may improve wound healing.

Keratinocytes and adipose-derived stem cells can effectively heal difficult skin wounds.

Acne is linked to complex skin microbe interactions, and new findings suggest microbiome-based treatments could be effective.

Researchers identified five new potential targets for leishmaniasis treatment, suggesting repurposing existing drugs could be effective.

The review concludes that innovations in regenerative medicine, tissue engineering, and developmental biology are essential for effective tissue repair and organ transplants.

A specific pathway involving AR, miR-221, and IGF-1 plays a key role in causing common hair loss.

Losing both ERBB2 and ERBB3 receptors in mice causes significant skin problems and inflammation.

Nanotechnology could improve hair regrowth but faces challenges like complexity and safety concerns.

Human skin xenografting could improve our understanding of skin development, renewal, and healing.

Different genes cause Female Pattern Hair Loss compared to male hair loss, and treatments vary, but more research is needed to understand it fully.

PCAT1 helps hair growth by controlling miR-329/Wnt10b.

MSC-Exos can aid organ development and offer therapeutic benefits for various conditions.

Leptin-deficient mice, used as a model for Type 2 Diabetes, have delayed wound healing due to impaired contraction and other dysfunctional cellular responses.

lncRNAs may regulate hair follicle development in Hu sheep.

Both human and animal-derived small extracellular vesicles speed up skin healing equally well.

Certain long non-coding RNAs are important for the growth of hair follicles in Inner Mongolian cashmere goats.

Certain long non-coding RNAs in cashmere goats affect hair growth when treated with a specific growth factor.

Melatonin treatment increases a specific RNA in goat cells that boosts cashmere growth.

The cornified envelope is crucial for skin's barrier function and involves key proteins and genetic factors.

The document concludes that while there are promising methods to control CRISPR/Cas9 gene editing, more research is needed to overcome challenges related to safety and effectiveness for clinical use.

Platelet-rich plasma may help hair follicle cells grow by affecting certain genes and pathways.

The conclusion is that grasping how cells determine their roles through evolution is key, with expected progress from new research models and genome editing.