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Jihyun Kim

Forensic Toxicology and Chemistry Division, Seoul Institute, National Forensic Service, Seoul, Republic of Korea.

3 papers in the library · 2 citations · publishing 2025-2026

Papers

Development of a diagnostic variable number tandem repeat marker and dual TaqMan genotyping assay to distinguish Lophophora species.

International journal of legal medicine January 1, 2025 Eun-Mi Hwang, Kyu-Sik Jeong, Seong Yeon Yoo et al. 2 citations

A new DNA marker in the trnL intron region distinguishes the two cactus species Lophophora williamsii (which contains the psychotropic agent mescaline) and Lophophora diffusa. The marker is a variable number tandem repeat (VNTR) where one repeat unit (13 nucleotides) occurs in L. williamsii and two in L. diffusa. A TaqMan genotyping assay using two probes detected the marker with high sensitivity (detection limits of 0.000063 ng and 0.000066 ng). Testing 16 crime-scene samples presumed to be L. williamsii matched results from gas chromatography-mass spectrometry, confirming the method's forensic applicability for species identification.

Simultaneous quantitative determination of 2-fluoro-2-oxo-phenylcyclohexylethylamine, methylenedioxymethamphetamine and ketamine in postmortem blood using liquid chromatography-tandem mass spectrometry.

Forensic toxicology January 1, 2026 Meejung Park, Sungmin Moon, Nahyun Lee et al.

A validated method using liquid chromatography-tandem mass spectrometry (LC-MS/MS) with solid-phase extraction was developed for simultaneously quantifying 2F-2-oxo-PCE, MDMA, MDA, ketamine, and norketamine in postmortem blood. The method showed satisfactory linearity, accuracy, precision, matrix effect, and recovery. In autopsy cases, 2F-2-oxo-PCE concentrations ranged from 664 to 7911 ng/mL. Concurrent detection with MDMA and ketamine suggested possible polydrug use contributing to fatal outcomes. This is the first forensic toxicological detection of 2F-2-oxo-PCE in autopsy cases, providing critical baseline data for interpreting intoxications involving this emerging dissociative substance.

Comparative transcriptomic analysis provides novel insights into mescaline biosynthesis by Lophophora williamsii.

Journal of forensic sciences March 1, 2025 Eun-Mi Hwang, Kyu-Sik Jeong, Seong Yeon Yoo et al.

A full-length transcriptome of Lophophora williamsii (peyote) was generated using single-molecule real-time PCR and PacBio Iso-Seq, yielding 2,839,819 base pairs of long reads and 70,945 unigenes. Known genes in the mescaline biosynthetic pathway were confirmed, including 6 tyrosine decarboxylases, 1 tyrosine/DOPA decarboxylase, 215 O-methyltransferases, and 129 hydroxylases. Gene Ontology analysis identified 2903 biological processes, 695 cellular components, and 1766 molecular functions. KEGG pathway analysis linked phenylpropanoid and isoquinoline biosynthesis to mescaline production. Illumina Nova sequencing compared gene expression between mescaline-positive and mescaline-negative specimens to establish a candidate gene pool. The findings call for re-evaluation of forensic methods and legal regulations for newly identified L. williamsii specimens.