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These methods help understand DNA changes in mouse skin.

Inherited color dilution in Rex rabbits is linked to DNA methylation changes in hair follicles.

Elastic Net DNA methylation clocks are inaccurate for predicting age and health status; a "noise barometer" may better indicate aging and disease.

Curcumin may help reverse aging by targeting specific genes.

In vivo lineage labelling is better than in vitro methods for identifying and understanding stem cells.

Epigenetic mechanisms control skin development by regulating gene expression.

HNG may help prevent the negative effects of chemotherapy on sperm production and white blood cell counts.

Loss of TET2 increases the risk of skin and oral cancer.

Low oxygen areas help maintain and protect blood stem cells by using a simple sugar breakdown process for energy and managing their activity levels.

Non-surgical procedures can help reduce wrinkles and stimulate skin repair by understanding skin aging at the molecular level.

Understanding how epigenetic regulation affects stem cells is key to cancer insights and new treatments.

Epigenetic factors play a crucial role in skin health and disease.

Inherited color dilution in rabbits is linked to DNA methylation changes.

DNMT1 helps turn hair follicle stem cells into fat cells by blocking a specific microRNA.

Understanding and manipulating epigenetic changes can potentially lead to human organ regeneration therapies, but more research is needed to improve these methods and minimize risks.

UV radiation can help sterilize wounds and promote healing but requires careful use to avoid damaging cells.

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

DNA methylation is essential for skin and hair follicle development, and could be a target for treating skin diseases.

Men with hair loss have more DNA changes in back-of-head hair follicles, possibly protecting them from thinning.

Reduced AR gene methylation may cause early pubic hair growth in girls.

DNA methylation changes are linked to hair growth cycles in goats.

DNA methylation and long non-coding RNAs are key in controlling hair growth in Cashmere goats.

The SOSTDC1 gene is crucial for determining sheep wool type.

DNA changes in tetraploid wheat improve root growth and nitrogen use.

Mice lacking a key DNA methylation enzyme in skin cells have a lower chance of activating stem cells necessary for hair growth, leading to progressive hair loss.

A specific RNA in cashmere goats helps improve hair growth by interacting with certain molecules.

The document concludes that DNA methylation and the mTOR pathway are important for stem cell function and could impact disease treatment.

A newly found RNA in Cashmere goats may play a role in hair growth and development.

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

Women with greater androgen sensitivity respond better to finasteride for hair loss.