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Blocking CXXC5 speeds up diabetic wound healing by improving blood vessel growth and skin repair.

Rabbits lacking the Hoxc13 gene show similar hair and skin issues to humans with ECTD-9, making them good for research on this condition.

Mouse hair follicle cells can become heart-like cells without genetic changes.

ARHGEF3 is essential for proper hair follicle development in mice.

The E2 protein affects gene activity in hair follicles of mice.

Genetic mutations that disrupt homocysteine breakdown lead to increased damage in mouse hair keratin.

Copper injections improved symptoms and prevented brain damage in brindled mice.

Deleting the MAD2L1 gene in mice led to rapid tumor growth despite chromosomal instability.

Mice without the enzyme HSD17B3 still produce normal testosterone, suggesting they have different ways to make it compared to humans.

High levels of ODC and a mutant Ha-ras gene cause tumors in mice.

Human basal cell carcinomas and squamous cell carcinomas have unique gene expression patterns not fully mirrored in mouse models.

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

HR protein causes abnormal hair cycles by increasing Tgf-β2 and reducing miR-31.

New hair growth corticosterone levels are higher in diabetic mice, indicating long-term stress.

Some mutant mice have hair with abnormal cross-linking, mainly in the cuticle, not affecting other hair parts.

Mice with the ab gene have abnormal sebaceous gland development, affecting sebum production.

Epidermal growth factor stops hair follicle formation in developing mouse skin.

SKH1 hairless mice have identifiable epidermal stem cells with specific markers.

The study developed a successful mouse model to study skin infections, highlighting the importance of choosing the right fungal strains.

Hairless mice are more vulnerable to Listeria infection, but gut microbiota can help reduce damage.

Using rodents for research shows that health problems in the womb can cause diseases later in life.

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.

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

NAG-1 may help prevent some metabolic issues related to PCOS.

Humanized animal models using human stem cells can improve disease research and drug testing.

Dog skin with hair loss, when transplanted to mice, regrew hair, suggesting the hair loss cause is likely body-wide, not skin-specific.

A mouse gene mutation increases the risk of skin cancer.

Temporary activation of β-catenin can create new hair follicles, but ongoing activation is needed to keep hair follicle tumors.

Cyclooxygenase-2 overexpression in mice skin causes hair loss like human androgenetic alopecia.