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Integumentary organs adapt and evolve for survival, with potential uses in regenerative medicine.

Pig blood plasma can be used to promote human hair growth and is a good alternative to the commonly used serum additive.

PrPC is important for neural differentiation in cattle and mouse embryonic stem cells.

IGF-1 from human placenta helps hair grow.

Hard skin features like scales, feathers, and hair evolved through specific protein changes in different animal groups.

Different PADI isoforms help cells develop diverse functions.

The data set helps improve predictions of how substances are absorbed through pig skin.

Tmem50b and 2610305D13Rik genes play key roles in early mouse embryo development.

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

Keratin gene clusters in humans and marsupials are similarly organized.

The technique allowed noninvasive tracking of hair stem cell survival and growth, showing potential for hair loss research.

Baikal seals' skin shows normal adaptations and potential pathologies possibly linked to climate change and a viral pathogen.

Different species have unique sensory adaptations to perceive their environments.

Three different methods were compared for creating Titan cells, a type of fungus cell. The OZ method made the most cells initially, but the number dropped quickly. The EB method also made a lot of cells, but the number also dropped. The AA method made fewer cells, but the number stayed steady. The methods also affected which genes were active in the cells.

Porcine PRP can replace FBS and promote hair growth.

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.

The new patch made of cell matrix and a polymer improves wound healing and supports blood vessel growth.

This technique improves delivery and effectiveness of exosomes for tissue regeneration.

Small changes in cell division and differentiation can activate blood progenitors.

Fish cell spheroids are a promising tool for replicating real-life conditions in research.

Scientists have made progress in growing mini-organs and regenerating parts of the skin, with plans to treat hair loss in a future trial.

iPSC-derived artificial platelets show promise for consistent and effective regenerative therapies.

A mother's diet at conception can cause lasting genetic changes in her child.

The material combining eggshell protein and scaffold helps wounds heal faster and regenerates tissue effectively.

The MEST method increases cell yield and volume for regenerative medicine but needs more testing.

Platelet-rich plasma helps heal wounds and regenerate tissue in various medical fields.