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Different types of skin on mice have unique chemical profiles related to how they grow and react to stress.

The study developed a 3D model that closely imitates remaining ovarian cancer after treatment and identified a potential drug targeting resistant cancer cells.

The analysis of a large pilomatricoma revealed five distinct areas with different gene activity related to hair growth and tumor development.

Proteomics helps understand protein changes in wool fiber development.

Hair follicles and urine cell pellets are promising for transcriptome studies due to consistent quality and useful expression profiles.

SNP profiling allows personalized skincare treatments for better results and fewer side effects.

QMSI effectively maps and quantifies drug distribution in skin tissues.

MEGA PROTAC improves prediction and ranking of protein complexes better than existing methods.

Colorectal cancer's ability to spread is due to changes in many genes, not just one.

Multiphoton microscopy effectively images mouse skin layers and structures.

Hair protein analysis might help identify a person's ethnicity, sex, and age in forensics.

Cell processes depend on time-of-day and protein complex flexibility for skin health.

Co5M offers a new way to observe and understand wound healing 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.

Machine learning identified three unique subtypes of androgen excess in women with PCOS, each with different metabolic risks.

QMSI is a valuable method for studying drug penetration in skin tissues.

The method can measure multiple hormones in women's hair and may help identify hormone-related health issues.

lncRNAs significantly influence koi carp skin color.

DNA phenotyping can predict physical traits like eye, hair, and skin color, improving forensic investigations.

Genomic profiling for myeloid cancers can find important inherited mutations, but it's challenging when these mutations aren't related to the patient's symptoms.

Hair analysis is valuable for health and forensics but faces challenges like growth variability and contamination.

Certain microRNAs found in normal cells can effectively suppress various cancers.

The technology can help diagnose and subtype autoimmune diseases by identifying specific autoantibodies.

A systems biology approach helps improve mesenchymal stromal cell therapies by mapping interactions and identifying treatment targets.

Hair follicles have a more inactive cell cycle than other skin cells, which may help develop targeted therapies for skin diseases and cancer.

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

Multiphoton microscopy is a promising tool for detailed skin imaging and could improve patient care if its challenges are addressed.

Human hair contains many different molecules that change along its length, influenced by personal care products.

Standardizing and engineering organoids can improve their use in medicine and drug testing.

More research is needed to understand hair aging and develop effective treatments.