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Scientists have created a new hair loss treatment using ultrasound to deliver gene-editing particles, which resulted in up to 90% hair regrowth in mice.

Certain mouse strains develop a skin condition similar to a human hair loss disease due to genetic defects.

Proteomic analysis can identify genetic differences in mouse hair, helping understand hair defects and variations.

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

Deleting the Trf1 protein in mice is safe and may help prevent cancer without major side effects.

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

The mouse model showed defects in adult stem cell maintenance related to Hutchinson-Gilford progeria syndrome.

Engineered exosomes with EGF and FGF improve hair growth in mice with hair loss.

Scientists can now create skin with hair by reprogramming cells in wounds.

Keratin 16 delays skin maturation and affects skin and hair development in mice.

Increasing mir-302 turns human hair cells into stem cells by changing gene regulation and demethylation.

CMV infection increases the risk of GvHD after bone marrow transplants.

FoxN1 overexpression in young mice harms immune cell and skin development.

Ectodysplasin-A1 is crucial for developing hair, teeth, and glands.

Certain cells from hair follicles can create new hair and contribute to hair growth when implanted in mice.

Dimethylarsinic acid speeds up skin tumor growth in certain mice.

Removing both Atr and Trp53 genes in adult mice causes severe tissue damage and death due to DNA damage.

Stem cells from whiskers can be transplanted to stimulate hair growth.

Combining UVB irradiation and anti-CD154 antibody improves hair follicle transplant survival.

Overactivating Hedgehog signaling makes hair follicle cells in mice grow hair faster and create more follicles.

HGF/SF injections can stimulate hair growth and increase hair follicle size in mice.

A gene mutation in mice causes increased mast cells and disorganized hair follicles in their skin.

The mutant HR bmh protein affects hair follicle formation by failing to repress vitamin D receptor activity.

ELIP-based CRISPR delivery improves heart disease gene editing but needs more testing.

The new microneedle treatment effectively promotes hair growth better than minoxidil.

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

Certain CD8+ T cells attack hair follicles in alopecia areata, suggesting they could be targeted for treatment.

Injecting monocyto-angiotropin into hare skin increases hair growth by forming new blood vessels.

Hair from balding and non-balding areas regrows similarly on mice.