Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments

Yahiatene I, Doose S, Huser T, Sauer M (2012)
Analytical Chemistry 84(6): 2729-2736.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Yahiatene, IdirUniBi; Doose, Soeren; Huser, ThomasUniBi ; Sauer, Markus
Abstract / Bemerkung
We introduce a robust and relatively easy-to-use method to evaluate the quality of two-color (or more) fluorescence coincidence measurements based on close investigation of the coincidence correlation-matrix. This matrix contains temporal correlations between the number of detected bursts in individual channels and their coincidences. We show that the Euclidian norm of a vector Gamma derived from elements of the correlation matrix takes a value between 0 and 2 depending on the relative coincidence frequency. We characterized the Gamma-norm and its dependence on various experimental conditions by computer simulations and fluorescence microscopy experiments. Single-molecule experiments with two differently colored dye molecules diffusing freely in aqueous solution, a sample that generates purely random coincidence events, return a Gamma-norm less than one, depending on the concentration of the fluorescent dyes. As perfect coincidence sample we monitored broad autofluorescence of 2.8 mu m beads and determined the F-norm to be maximal and close to two. As in realistic diagnostic applications, we show that two-color coincidence detection of single-stranded DNA molecules, using differently labeled Molecular Beacons hybridizing to the same target, reveal a value between one and two representing a mixture of an optimal coincidence sample and a sample generating random coincidences. The Gamma-norm introduced for data analysis provides a quantifiable measure for quickly judging the outcome of single-molecule coincidence experiments and estimating the quality of detected coincidences.
Erscheinungsjahr
2012
Zeitschriftentitel
Analytical Chemistry
Band
84
Ausgabe
6
Seite(n)
2729-2736
ISSN
0003-2700
eISSN
1520-6882
Page URI
https://pub.uni-bielefeld.de/record/2493162

Zitieren

Yahiatene I, Doose S, Huser T, Sauer M. Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments. Analytical Chemistry. 2012;84(6):2729-2736.
Yahiatene, I., Doose, S., Huser, T., & Sauer, M. (2012). Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments. Analytical Chemistry, 84(6), 2729-2736. doi:10.1021/ac2030283
Yahiatene, Idir, Doose, Soeren, Huser, Thomas, and Sauer, Markus. 2012. “Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments”. Analytical Chemistry 84 (6): 2729-2736.
Yahiatene, I., Doose, S., Huser, T., and Sauer, M. (2012). Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments. Analytical Chemistry 84, 2729-2736.
Yahiatene, I., et al., 2012. Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments. Analytical Chemistry, 84(6), p 2729-2736.
I. Yahiatene, et al., “Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments”, Analytical Chemistry, vol. 84, 2012, pp. 2729-2736.
Yahiatene, I., Doose, S., Huser, T., Sauer, M.: Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments. Analytical Chemistry. 84, 2729-2736 (2012).
Yahiatene, Idir, Doose, Soeren, Huser, Thomas, and Sauer, Markus. “Correlation-Matrix Analysis of Two-Color Coincidence Events in Single-Molecule Fluorescence Experiments”. Analytical Chemistry 84.6 (2012): 2729-2736.

6 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

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Cortactin scaffolds Arp2/3 and WAVE2 at the epithelial zonula adherens.
Han SP, Gambin Y, Gomez GA, Verma S, Giles N, Michael M, Wu SK, Guo Z, Johnston W, Sierecki E, Parton RG, Alexandrov K, Yap AS., J Biol Chem 289(11), 2014
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Yahiatène I, Aung HH, Wilson DW, Rutledge JC., Phys Chem Chem Phys 16(39), 2014
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Daten bereitgestellt von Europe PubMed Central.

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