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Most people have similar hair protein patterns, but a rare variant was found in two women.

Certain genes and proteins may help diagnose and treat primary cicatricial alopecia.

Hair and nail proteins, mainly keratins, are crucial for structure and can indicate health issues.

Newly designed proteins can effectively degrade specific proteins in cells, offering a potential new therapy method.

A new method quickly extracts and identifies proteins from hair and other keratin sources.

Forensic DNA phenotyping can now predict more physical traits and ancestry from DNA, but further improvements are needed.

Integrating biological networks improves drug repurposing and ADR prediction.

Forensic DNA Phenotyping can now better predict appearance, ancestry, and age from DNA, but more research is needed for precise police use.

Matrix effects in LC-MS can be managed but not completely avoided.

Hair proteomics could be a useful, non-invasive tool for identifying stress-related disorders.

Hair proteomics could be a promising non-invasive way to identify stress-related disorders.

Scientists made antibodies to tell cashmere and wool apart, which could improve how we identify animal fibers.

The research found that people's hair proteins vary, especially by ethnicity and body part, which could help identify individuals in forensic science.

Peptide-based PROTACs show promise in targeting hard-to-treat proteins, especially for cancer therapy.

Modern techniques have improved the understanding of keratin proteins, revealing their roles in various cells and potential in disease diagnosis.

Hair proteins are complex and provide valuable genetic and biological information.

Hair protein analysis could improve medical testing and understanding of hair characteristics.

Accurate quantitative bioanalysis using LC-MS/MS is challenging due to matrix effects, but using internal standards and new methods like in-sample calibration could improve results.

New imaging technology can show up to 40 different markers in hair loss tissue, helping to understand hair disease better.

Bleaching damages hair by reducing the quality of keratin and keratin-associated proteins.

Explosions don't stop hair proteins from being used to identify people.

The research found that people's hair proteins vary by individual and body part, with some differences between ethnic groups, which could help in forensics.

Peptide drugs now target hard-to-reach proteins more effectively and specifically.

A new protein linked to hair strength was identified, aiding in understanding brittle hair conditions.

Multiphoton microscopy effectively images mouse skin layers and structures.

The conclusion is that a new method can identify cosmetic residues on hair and match them to their products.

The new method found new shared genetic areas linked to both Type 2 Diabetes and Prostate Cancer.

Mouse high-glycine/tyrosine proteins have distinct patterns in hair follicles, peaking at specific hair cycle days.