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

Scientists made a mouse that can be made to lose hair and then grow it back.

The conference concluded with plans for joint research into children's skin conditions and emphasized the importance of collaboration and patient-focused research.

The guide explains how to study human and mouse sebaceous glands using various staining and imaging techniques, and emphasizes the need for standardized assessment methods.

The Sonic hedgehog pathway is crucial for new hair growth during mouse skin healing.

Researchers isolated a new type of stem cell from mouse skin that can renew itself and turn into multiple cell types.

PTHrP and its receptor can control blood vessel growth and hair development in mouse skin.

Lgr5 is a marker for active, long-lasting stem cells in mouse hair follicles.

Scientists have found a way to create hair follicles from skin cells of newborn mice, which can grow and cycle naturally when injected into adult mouse skin.

New mouse models of Pemphigus show severe symptoms and need better treatments.

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

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

Scientists successfully created mouse hair proteins in the lab, which are stable and similar to natural hair.

Overexpression of sPLA2-IIA in mouse skin reduces hair stem cells and increases cell differentiation through JNK/c-Jun pathway activation.

Researchers created long-lasting, diverse skin organoids from mouse hair follicle stem cells, useful for studying skin.

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

Early regulatory T cells are crucial for normal skin pigmentation.

The research found new potential mechanisms in mouse hair growth by studying RNA interactions.

A mutation in the Adam10 gene causes freckle-like spots on Hairless mice.

Keratin genes change gradually during skin cell development and should be used carefully as biomarkers.

CD34 is a marker for isolating stem-like cells in mouse hair follicles.

Lrig1 marks a unique group of stem cells in mouse skin that can become different skin cell types.

EZH1 and EZH2 are crucial for healthy hair growth and skin repair.

Hair follicle stem cells use specific chromatin changes to control their growth and differentiation.

A new 3D culture system helps grow and study mouse skin stem cells for a long time.

Mice that can regenerate tissue have cells that pause in the cell cycle, which is important for healing, similar to axolotls.

Activin A and follistatin control when hair cells develop in mouse ears.

Blue-light activation of TrkA improves hair-follicle stem cells' ability to become neurons and glial cells.

Deleting the CRIF1 gene in mice disrupts skin and hair formation, certain proteins affect hair growth, a new compound may improve skin and hair health, blood cell-derived stem cells can create skin-like structures, and hair follicle stem cells come from embryonic cells needing specific signals for development.

A chemical called 5-Bromo-2′-deoxyuridine caused rapid hair loss in mice by killing certain skin cells through a specific cell death pathway.