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Near-infrared probes can safely and effectively image cysteine protease activity for disease diagnosis.

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

Pepsin digestion improves accuracy in analyzing proteins in human hair.

The conclusion is that a new method could improve the identification of autoimmune targets in alopecia areata, despite some limitations.

The RapidHIT ID system can effectively get DNA profiles from hair roots with enough cells.

Multiphoton microscopy can effectively assess breast cancer treatment responses without labels.

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.

MultiKano accurately identifies cell types in complex data better than existing methods.

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

The DNN-DTIs method accurately predicts drug-target interactions and is useful for drug repositioning.

Researchers developed a new method to identify animal hair in textiles, which is effective for various fibers and more reliable than previous methods.

DNA phenotyping helps predict physical traits from DNA with varying accuracy and requires careful ethical and legal handling.

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

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

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

Adding a second method to PROTACs could improve cancer treatment.

Different types of male pattern baldness have unique inflammation-related protein patterns.

Proteomics helps understand protein changes in wool fiber development.

AI improves accuracy and consistency in diagnosing male pattern hair loss.

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

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

The new AI system improves remote skin condition diagnosis and access to care.

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

Multiphoton excitation microscopy is a promising tool for deep tissue imaging and clinical applications.

Multiphoton microscopy helps understand and improve vitiligo treatments by visualizing skin cell changes.