Surface modification to reduce nonspecific binding of quantum dots in live cell assays.

Nonspecific binding is a frequently encountered problem with fluorescent labeling of tissue cultures when labeled with quantum dots. In these studies various cell lines were examined for nonspecific binding. Evidence suggests that nonspecific binding is related to cell type and may be significantly reduced by functionalizing quantum dots with poly(ethylene glycol) ligands (PEG). The length of PEG required to give a significant reduction in nonspecific binding may be as short as 12-14 ethylene glycol units.

Progression of respiratory syncytial virus infection monitored by fluorescent quantum dot probes.

We report the use of quantum dots (QDs) to identify the presence and monitor the progression of respiratory syncytial virus (RSV) infection over time by labeling the F and G proteins. In addition, co-localization of these viral proteins was shown using confocal microscopy. The implications of these results are that QDs may provide a method for early, rapid detection of viral infection and open the door for future studies of the intricate spatial features cell trafficking of viral proteins.