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Collagen XXII is a marker for tissue junctions, aiding in structural integrity and found in muscles, heart, skin, and arthritic joints.

Hard α-keratin has a universal molecular structure with a specific superlattice arrangement.

Activin B can boost hair growth by promoting cell proliferation and cell cycle progression.

Hair follicle cells and intestinal tissue can create strong, functional blood vessel replacements.

Mutations in the ACTB gene cause Becker’s nevi and may lead to muscle issues in Becker’s nevus syndrome.

Type II keratin genes are crucial for hair follicle differentiation and have a conserved structure and expression pattern.

Keratin proteins in epithelial cells are dynamic and crucial for cell processes and disease understanding.

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

Scientists identified and cloned specific keratin proteins in mouse hair.

Methylene blue staining effectively highlights detailed nerve structures in rat fur.

Hair and wool strength is affected by the number and type of bonds in their protein structures, with hair having more protein aggregates than wool.

Sheet formation is key to macrofibril structure differences in wool.

K6hf is a unique protein found only in a specific layer of hair follicles.

The lanceolate hair-J mutation in mice helps understand human hair disorders like Netherton's syndrome.

A new mutation in the hHb1 keratin gene is linked to the hair disorder monilethrix.

Collagenase IV helps control hair growth by affecting certain growth factors.

Mechanical stress causes ligament thickening through WISP-1 and Hedgehog signaling.

A PIK3CA mutation in Schwann cells causes severe nerve damage and increased glycolysis, but early treatment can help.

The mutant HR bmh protein mis-localizes in cells, affecting skin and hair development.

The study revealed the detailed structure of a keratin dimer, aiding understanding of how intermediate filament proteins function.

A new engineered treatment shows promise in curing heart fibrosis.

The lower part of rat vibrissa hair gets more blood and is well-protected for growth.

Fibre optic confocal imaging can visualize skin layers, blood vessels, and nerves in live mice.

A unique gene mutation was found in a family with monilethrix.

Naked-mouse hair lacks certain proteins and has less soluble fibril.

Both SMS1 and SMS2 are crucial for normal hair growth and cycle in mice.

Methylene blue staining effectively reveals detailed nerve structures in rat snouts.