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

Laser microdissection helps get DNA from single hair follicles for better forensic analysis.

The HGCA tool helps identify genes that work together by analyzing their co-expression patterns.

The study developed a method to analyze ancient hair proteins using very small samples.

Microarray analysis helps find hidden chromosomal changes in patients with intellectual disabilities and birth defects.

A mutation in the HR gene causes a rare form of irreversible hair loss in two Kashmiri families. Whole exome sequencing is effective for finding such mutations.

The Indus River dolphin has low genetic diversity due to a past bottleneck and human impact.

Pyrene excimer nucleic acid probes are promising for detecting biomolecules accurately with potential for biological research and drug screening.

The document concludes that careful design of genetic fate mapping experiments is crucial for accurate cell lineage tracing in mice.

The conclusion is that analyzing RNA from skin oils is a promising way to understand skin diseases.

The method effectively extracts high-quality DNA from marmoset hair, avoiding blood chimerism.

The research updated the skin cell profile, finding new skin cell markers and showing fibroblasts' key role in skin health.

Tape-strip RNA sequencing can better detect inflammation in hair follicles for alopecia areata.

The method effectively detects banned substances in urine for sports antidoping.

Hair and nails contain stable RNA, useful for personalized medicine and screening.

Combining cell conditioning with mild protease digestion effectively shows versican mRNA in mouse skin sections.

Researchers found a new area on chromosome 2 linked to a genetic hair loss condition.

The research provided a detailed view of the non-keratinous parts of human hair fibers.

Hair proteins have weak spots in their α-helical segments.

The article concludes that creating a detailed map of normal human skin at the single-cell level is important.

The guidelines ensure accurate genetic testing and reporting for 21-hydroxylase deficiency.

The new X-ray technique allows for precise and non-destructive measurement of elements in hair, creating the first database of its kind for a specific ethnic group.

Using SNP array testing helped quickly find the gene causing Woodhouse-Sakati syndrome in two related individuals.

The Hair Cell Analysis Toolbox automates and improves the analysis of cochlear hair cells using machine learning.

Protein microarrays are highly sensitive tools useful for disease diagnosis and studying proteins.

Researchers found that most genes affecting drug responses are not fully covered by commercial SNP chips, suggesting the need for more comprehensive tools to optimize drug selection based on genetics.