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

Different types of skin stem cells can change and adapt, which is important for developing new treatments.

Regulating keratinocyte growth in engineered skin can improve wound healing.

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

Different types of resting melanocyte stem cells have unique characteristics and vary in their potential to become other cells.

Pig skin cells can turn into mesodermal cells but lose their ability to become neural cells.

Researchers created an efficient method to extract DNA from marmoset hair, reducing blood chimerism.

Single-cell transcriptomics reveals detailed cellular diversity and key pathways in tissue regeneration.

New mouse models help study melanocytic cells for melanoma research.

Skin cell types develop when specific genes are turned on by removing certain chemical tags from DNA.

Aging in one type of stem cell can cause aging-like changes in various organs.

The method increases stem-like cells for better skin regeneration.

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

Scientists made skin stem cells from other human cells with over 97% efficiency, which could help treat skin conditions.

Zebrafish skin regeneration relies on cell behaviors and reactive oxygen species, with antioxidants reducing and hydrogen peroxide increasing regeneration.

The research found ways to activate melanocyte stem cells for potential treatment of skin depigmentation conditions.

Hair follicle stem cells can become nerve cells using specific treatments.

PCR genotyping in cre-loxP mice can be inaccurate due to unintended gene deletions in non-target tissues.

Ribonucleotide excision repair is crucial to prevent skin cancer.

The study showed that hair follicle stem cells can maintain and organize themselves in a lab setting, keeping their ability to renew and form hair and skin.

Skin organoids can regenerate hair by forming specific cell units with certain signals.

Ribonucleotide excision repair is crucial to prevent skin cancer.

Scientists used a special imaging technique to observe that hair follicle regeneration involves cell division and structural changes, mostly in the lower part of the follicle, and that the dermal papilla at the base is crucial for regrowth.

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

PBX1 helps hair stem cells grow and change by turning on certain cell signals and preventing cell death, which may be useful for hair regrowth treatments.

Researchers made stem cells from human hair follicle cells with higher efficiency than from skin cells.

Using special RNA to target a mutant gene fixed hair problems in mice.

Scientists created a functional 3D skin system from stem cells that can be transplanted into wounds.

Using special stem cells, we can create new hair follicles, potentially making hair restoration easier and more affordable.