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Higher miR-34a levels and the A variant of the MIR-34A gene are linked to increased risk and severity of alopecia areata.

Thymosin beta 4 protects cells from damage by blocking a harmful microRNA and boosting a protective gene.

miR-29 is a key factor that accelerates aging.

The TCL1 transgenic mouse model is useful for understanding human B-cell leukemia and testing new treatments.

Vertex pattern hair loss linked to higher prostate cancer risk.

Targeting a protein that blocks hair growth with microRNAs could lead to new hair loss treatments, but more research is needed.

Certain genetic markers can indicate higher or lower risk for systemic lupus erythematosus.

Inducing survivin in normal tissues can protect against radiation damage.

Hair loss from Alopecia Areata is caused by both genes and environment, with several treatments available but challenges in cost and relapse remain.

New treatments for hair loss from alopecia areata may include targeting immune cells, using stem cells, balancing gut bacteria, applying fatty acids, and using JAK inhibitors.

MicroRNAs are crucial for controlling skin development and healing by regulating genes.

Certain microRNAs are linked to various skin diseases and could be used to diagnose and treat these conditions.

The research found that a complex gene network, controlled by microRNAs, is important for hair growth in cashmere goats.

Green tea extract helps prevent cell death and supports cell survival in hair cells exposed to a chemotherapy drug.

Colorectal cancer development involves both genetic changes and epigenetic alterations like DNA methylation and microRNA changes.

MicroRNAs play a crucial role in skin and hair health, affecting everything from growth to aging, and could potentially be used in treating skin diseases.

Hair microRNAs could be effective biomarkers for diagnosing scleroderma.

Keratinocytes help heal skin wounds by interacting with immune cells and producing substances that kill pathogens.

UVB radiation changes the levels of certain microRNAs in skin cells, which may affect cell survival and hair growth.

Targeting specific miRNAs may help treat hair follicle issues caused by hydrogen peroxide.

The secretome from mesenchymal stem cells is a promising treatment that may repair tissue and avoid side effects of stem cell transplantation.

Drosha and Dicer are essential for hair follicle health and preventing DNA damage in skin cells.

Inactive hair follicle stem cells help prevent skin cancer.

MicroRNAs are important for skin health and could be targets for new skin disorder treatments.

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

XIST RNA helps regenerate hair follicles by targeting miR-424 and activating hedgehog signaling.

A specific RNA molecule, circCOL1A1, affects the growth and quality of goat hair by interacting with miR-149-5p and influencing cell growth pathways.

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

NF-κB signaling is crucial in many diseases and can be targeted for new treatments.

Different types of skin stem cells can change and adapt, which is important for developing new treatments.