Article ID Journal Published Year Pages File Type
1175881 Analytical Biochemistry 2009 5 Pages PDF
Abstract
In recent years, quantum dots (Qdot), with their unique physical, chemical, and optical properties, have been used extensively as probes to visualize several cell membrane receptors and extracellular biomolecules. However, Qdot-based intracellular imaging has always been associated with vital lacunas. High affinity between quantum dots may induce serious aggregation in the cytoplasm; as a result, quantum dot aggregates are usually misinterpreted as quantum dot-probed intracellular molecules. Moreover, due to the more viscous nature of the cytoplasm versus the extracellular aqueous media, aggregation issues become more severe during intracellular studies. In this work, we suggest direct nondestructive serotonin imaging in an intact cell using the quantum dot-based immunoassay with a rapid tunable multicolor imaging system based on the acousto-optic tunable filter. Any false-positive intracellular serotonin molecules that appeared due to the aggregation of quantum dots could be completely discriminated from the real intracellular serotonin granules through multicolor cellular imaging. The developed method is quick and has wide applicability in targeting various intracellular proteins, coenzymes, and micronutrients.
Related Topics
Physical Sciences and Engineering Chemistry Analytical Chemistry
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