Heavy element incorporation in nitroimidazole radiosensitizers: molecular-level insights into fragmentation dynamics.
Pamela H W SvenssonLucas SchwobOscar GrånäsIsaak UngerOlle BjörneholmNicuşor TîmneanuRebecka LindbladAnna-Lydia VieliVicente Zamudio-BayerMartin TimmKonstantin HirschCarl CalemanMarta BerholtsPublished in: Physical chemistry chemical physics : PCCP (2023)
The present study investigates the photofragmentation behavior of iodine-enhanced nitroimidazole-based radiosensitizer model compounds in their protonated form using near-edge X-ray absorption mass spectrometry and quantum mechanical calculations. These molecules possess dual functionality: improved photoabsorption capabilities and the ability to generate species that are relevant to cancer sensitization upon photofragmentation. Four samples were investigated by scanning the generated fragments in the energy regions around C 1s, N 1s, O 1s, and I 3d-edges with a particular focus on NO 2 + production. The experimental summed ion yield spectra are explained using the theoretical near-edge X-ray absorption fine structure spectrum based on density functional theory. Born-Oppenheimer-based molecular dynamics simulations were performed to investigate the fragmentation processes.
Keyphrases
- density functional theory
- molecular dynamics simulations
- molecular dynamics
- high resolution
- dual energy
- mass spectrometry
- electron microscopy
- molecular docking
- papillary thyroid
- air pollution
- computed tomography
- liquid chromatography
- gestational age
- magnetic resonance imaging
- gas chromatography
- lymph node metastasis
- magnetic resonance
- single molecule
- preterm birth
- energy transfer