Direct Measurement of Single-Molecule Diffusion and Photodecomposition in Free Solution
- 21 February 1997
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 275 (5303), 1106-1109
- https://doi.org/10.1126/science.275.5303.1106
Abstract
Continuous monitoring of submillisecond free-solution dynamics of individual rhodamine-6G molecules and 30-base single-stranded DNA tagged with rhodamine was achieved. Fluorescence images were recorded from the same set of isolated molecules excited either through the evanescent field at the quartz-liquid interface or as a thin layer of solution defined by micron-sized wires, giving diffraction-limited resolution of interconnected attoliter volume elements. The single-molecule diffusion coefficients were smaller and the unimolecular photodecomposition lifetimes were longer for the dye-DNA covalent complex as compared with those of the dye molecule itself. Unlike bulk studies, stochastic behavior was found for individual molecules of each type, and smaller diffusion coefficients were observed.Keywords
This publication has 18 references indexed in Scilit:
- Observation of Individual Chemical Reactions in SolutionScience, 1995
- Intermittency of Single Molecule Reaction Dynamics in Fluctuating EnvironmentsPhysical Review Letters, 1995
- Imaging of single fluorescent molecules and individual ATP turnovers by single myosin molecules in aqueous solutionNature, 1995
- Submillisecond detection of single rhodamine molecules in waterJournal of Fluorescence, 1994
- Analysis of fluorescence lifetime data for single Rhodamine molecules in flowing sample streamsAnalytical Chemistry, 1994
- Single Molecules Observed by Near-Field Scanning Optical MicroscopyScience, 1993
- Fluorescence detection and size measurement of single DNA moleculesAnalytical Chemistry, 1993
- Single-molecule detection limits in levitated microdropletsAnalytical Chemistry, 1991
- Optimization of high-sensitivity fluorescence detectionAnalytical Chemistry, 1990
- Attogram Detection Limit for Aqueous Dye Samples by Laser-Induced FluorescenceScience, 1983