Publications by authors named "H Sepman"
High-resolution mass spectrometry (HRMS)-based suspect and nontarget screening has identified a growing number of novel per- and polyfluoroalkyl substances (PFASs) in the environment. However, without analytical standards, the fraction of overall PFAS exposure accounted for by these suspects remains ambiguous. Fortunately, recent developments in ionization efficiency () prediction using machine learning offer the possibility to quantify suspects lacking analytical standards.
View Article and Find Full Text PDFNontarget analysis by liquid chromatography-high-resolution mass spectrometry (LC-HRMS) is now widely used to detect pollutants in the environment. Shifting away from targeted methods has led to detection of previously unseen chemicals, and assessing the risk posed by these newly detected chemicals is an important challenge. Assessing exposure and toxicity of chemicals detected with nontarget HRMS is highly dependent on the knowledge of the structure of the chemical.
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- The study addresses the challenge of distinguishing isomeric metabolites in metabolomic analysis using ESI/HRMS.
- It highlights how certain structural features, like the presence of a methyl group in caffeine metabolites, affect protomer formation and help in identifying different ion mobility species.
- The findings indicate that understanding these structural relationships can aid in the structural elucidation of metabolites and improve the identification of structural isomers in metabolomics.
Non-targeted screening with LC/ESI/HRMS aims to identify the structure of the detected compounds using their retention time, exact mass, and fragmentation pattern. Challenges remain in differentiating between isomeric compounds. One untapped possibility to facilitate identification of isomers relies on different ionic species formed in electrospray.
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- MicroRNAs (miRNA), particularly miR-142-3p, are implicated in the immune dysfunction and synaptic changes seen in multiple sclerosis (MS) and its mouse model, EAE, specifically highlighting their role in gray matter pathology.
- Research indicates that miR-142-3p levels increase in the serum and brains of MS patients and EAE models, affecting the glutamate transport system and enhancing excitotoxic synaptic transmission.
- Targeting miR-142-3p through inhibition could offer neuroprotective strategies against synaptic dysfunction and disease progression in MS.