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SO Green™ 520AM Singlet Oxygen Sensor *Cell-Permeable*
SO Green™ 520AM Singlet Oxygen Sensor has been developed for detecting intracellular singlet oxygen, It is cell-permeant. It is highly selective for singlet oxygen. Unlike other available fluorescent and chemiluminescent singlet oxygen detection reagents, SO Green™ 520AM Singlet Oxygen Sensor does not show any appreciable response to hydroxyl radical, superoxide, or other reactive oxygen species (ROS). This indicator only exhibits weak blue fluorescence. It emits a strong green fluorescence (excitation/emission maxima ∼504/525 nm) upon reaction with singlet oxygen. The PET quencher of SO Green™ 520AM Singlet Oxygen Sensor is eliminated (by singlet oxygen reaction) to recover its fluorescence. Singlet oxygen can be produced from many different sources such as dye photosensitizations. In mammalian biology, singlet oxygen is one of the ROS, which is linked to oxidation of LDL cholesterol and resultant cardiovascular effects. Polyphenol antioxidants can scavenge and reduce concentrations of reactive oxygen species and may prevent such deleterious oxidative effects. Ingestion of pigments capable of producing singlet oxygen with activation by light can produce severe photosensitivity of skin. This is especially a concern in herbivorous animals. Singlet oxygen is the active species in photodynamic therapy.
References
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Hydrophilic Biocompatible Fluorescent Organic Nanoparticles as Nanocarriers for Biosourced Photosensitizers for Photodynamic Therapy.
Authors: Sasaki, Isabelle and Brégier, Frédérique and Chemin, Guillaume and Daniel, Jonathan and Couvez, Justine and Chkair, Rayan and Vaultier, Michel and Sol, Vincent and Blanchard-Desce, Mireille
Journal: Nanomaterials (Basel, Switzerland) (2024)
Authors: Sasaki, Isabelle and Brégier, Frédérique and Chemin, Guillaume and Daniel, Jonathan and Couvez, Justine and Chkair, Rayan and Vaultier, Michel and Sol, Vincent and Blanchard-Desce, Mireille
Journal: Nanomaterials (Basel, Switzerland) (2024)
Tuning Fluorescence and Singlet Oxygen Quantum Yields of Subporphyrazines by Axial Functionalization.
Authors: Ben Ahmed, Sophia and Pérez de Bustos, Gema and Pina, João and Torres, Tomás and Rodríguez-Morgade, M Salomé
Journal: ChemPlusChem (2024): e202300779
Authors: Ben Ahmed, Sophia and Pérez de Bustos, Gema and Pina, João and Torres, Tomás and Rodríguez-Morgade, M Salomé
Journal: ChemPlusChem (2024): e202300779
Sensing and Microbiological Activity of a New Blue Fluorescence Polyamidoamine Dendrimer Modified with 1,8-Naphthalimide Units.
Authors: Grabchev, Ivo and Jordanova, Albena and Vasileva-Tonkova, Evgenia and Minkov, Ivan L
Journal: Molecules (Basel, Switzerland) (2024)
Authors: Grabchev, Ivo and Jordanova, Albena and Vasileva-Tonkova, Evgenia and Minkov, Ivan L
Journal: Molecules (Basel, Switzerland) (2024)
Red fluorescent BODIPY-based nanoparticles for targeted cancer imaging-guided photodynamic therapy.
Authors: Kim, Chanwoo and Mai, Duy Khuong and Kim, Won-Jin and Badon, Isabel Wen and Jo, Jinwoong and Kang, Dongho and Kim, Seok-Jun and Kim, Ho-Joong and Yang, Jaesung
Journal: Biomaterials science (2024): 1536-1548
Authors: Kim, Chanwoo and Mai, Duy Khuong and Kim, Won-Jin and Badon, Isabel Wen and Jo, Jinwoong and Kang, Dongho and Kim, Seok-Jun and Kim, Ho-Joong and Yang, Jaesung
Journal: Biomaterials science (2024): 1536-1548
NIR ditriphenylamine Indole-BODIPY photosensitizer: synthesis, photodynamic therapy in A549 cells and two-photon fluorescence imaging in zebrafish.
Authors: Liu, Ruibo and Qian, Ying
Journal: Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy (2024): 123387
Authors: Liu, Ruibo and Qian, Ying
Journal: Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy (2024): 123387
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