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Sensory neuron remodeling and Merkel-cell changes happen independently during skin maintenance.

Gene editing holds promise for skin treatments but needs careful safety and ethical consideration.

A new neural network helps identify key regulators in cell changes, aiding in understanding diseases and finding new treatments.

Sensory neuron changes and Merkel-cell changes in the skin happen independently during normal skin maintenance.

Sensory neuron and Merkel cell changes in the skin happen independently during normal skin maintenance.

A specific DNA region controls skin cell gene expression by working with certain proteins.

Dermal EZH2 controls skin cell growth and differentiation in mice.

Sensory neuron and Merkel-cell changes in the skin happen independently during normal skin maintenance.

Environmental cues can change the fate and function of epithelial cells, with potential for cell therapy.

Runx1 and CDK inhibitors help keep hair follicle stem cells inactive, affecting their future roles.

DNA methylation controls hair follicle gene expression in cashmere goats.

PRC2 is essential for maintaining intestinal cell balance and aiding regeneration after damage.

BRG1 is essential for skin cells to move and heal wounds properly.

Quiescent cells have increased mitochondrial activity and ECM gene expression, but reduced glycolysis.

ceRNA networks offer potential treatments for skin aging and wound healing.

Gene regulation evolved differently in mouse and chicken skin, but remained stable in their trunks.

Key skin cell regulators and gene organization changes are crucial for skin cell development and could help treat skin disorders.

RNA is crucial for controlling cell flexibility and regeneration.

CRISPR/Cas9 has improved precision and control but still faces clinical challenges.

GRHL3 is important for controlling gene activity in skin cells during different stages of their development.

CRISPR-based tools improve understanding and treatment of skin development and conditions.

EGF signaling affects gene expression in skin cells, influencing hair growth and potentially cancer.

These methods help understand DNA changes in mouse skin.

Loss of Dnmt3a and Dnmt3b leads to more aggressive skin tumors, but blocking PPAR-γ can reduce this effect.

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

The Megsin-Cre transgene is a new tool for genetic manipulation in the skin and upper digestive tract.

The document concludes that careful design of genetic fate mapping experiments is crucial for accurate cell lineage tracing in mice.

Removing Mediator 1 causes teeth cells to turn into hair cells.

DNA methylation changes in Tan sheep affect growth and fur traits.