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Overexpressing the mineralocorticoid receptor in mouse skin causes skin thinning, early skin barrier development, eye issues, and hair loss.

Fluorescent proteins in mouse models effectively visualize tumor blood vessel growth.

The study showed that a specific DNA sequence can control gene expression in hair growth areas of mice.

Scientists made a mouse model of a serious skin cancer by changing skin cells with a virus and a specific gene, which is similar to the disease in humans.

T-cell reconstitution after thymus transplantation can cause hair whitening and loss.

Cholesterol and phospholipids increase in mouse skin during cancer development, with differences between male and female skin.

The study developed mouse models to help research and treat hair and sweat gland issues.

Certain cells in the adult mouse ear come from cranial neural crest cells, but muscle and hair cells do not.

Deleting NIPP1 in mouse skin cells causes early aging and chronic skin issues.

The study developed a mouse model for Alopecia Areata that responds to treatment, useful for future research.

The mTurq2-Col4a1 mouse model shows that cells can divide while attached to stable basement membranes during development.

Blocking IL-17 can reduce skin inflammation in a mouse model of pityriasis rubra pilaris.

Researchers created a new mouse model for studying scleroderma.

Glycogen levels in mouse skin drop after injury but increase during healing, returning to normal within a month.

Hair follicles produce and respond to melatonin, affecting hair growth and sensitivity to estrogen.

Certain signals are important for reducing specific chemical markers on hair follicle stem cells during rest periods, which is necessary for healthy hair growth.

The system allows precise control of gene expression in mouse skin, useful for studying skin biology.

A specific gene segment can make mouse skin cells glow, helping study hair growth and gene effects.

Mutant MK6a transgenes in mice cause blistering, hair loss, and potential human alopecia.

Researchers found new genes involved in hair growth, which could help develop new hair treatments.

Mutations in the Whn gene affect hair keratin gene expression differently.

Switching flying squirrels' diet from seeds to mouse chow restored their hair.

The research reveals how early embryonic mouse skin develops from simple to complex structures, identifying various cell types and their roles in this process.

PNKP is essential for keeping adult mouse progenitor cells healthy and growing normally.

Different diets change the fat composition in mouse skin, often reducing beneficial omega-3 fatty acids.

Collagen VII helps skin heal and stay strong, sirolimus may lower skin cancer risk in kidney transplant patients, high-molecular-mass hyaluronan helps naked mole rats resist cancer, dermal γδ T cells aid in hair growth in rodents, and overexpression of IL-33 in mouse skin causes itchiness, offering a model for studying allergic inflammation treatments.

Modified β-catenin can cause different effects in mouse skin cells, leading to cysts or tumors depending on the cell type.

μ-Crystallin may help hair growth by affecting thyroid hormone levels in mouse hair follicles.

Fentanyl accumulates differently in hair from internal use compared to external exposure.

Caspase-7 has functions in skin and hair that are not related to cell death.