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Literature DB >> 23276537

Time-integrated fluorescence cumulant analysis and its application in living cells.

Bin Wu¹, Robert H Singer, Joachim D Mueller.

Abstract

Time-integrated fluorescence cumulant analysis (TIFCA) is a data analysis technique for fluorescence fluctuation spectroscopy (FFS) that extracts information from the cumulants of the integrated fluorescence intensity. It is the first exact theory that describes the effect of sampling time on FFS experiment. Rebinning of data to longer sampling times helps to increase the signal/noise ratio of the experimental cumulants of the photon counts. The sampling time dependence of the cumulants encodes both brightness and diffusion information of the sample. TIFCA analysis extracts this information by fitting the cumulants to model functions. Generalization of TIFCA to multicolor FFS experiment is straightforward. Here, we present an overview of the theory, its implementation, as well as the benefits and requirements of TIFCA. The questions of why, when, and how to use TIFCA will be discussed. We give several examples of practical applications of TIFCA, particularly focused on measuring molecular interaction in living cells.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Proteins
RNA, Messenger

Year: 2013 PMID： 23276537 PMCID： PMC4152916 DOI： 10.1016/B978-0-12-388422-0.00005-4

Source DB: PubMed Journal: Methods Enzymol ISSN： 0076-6879 Impact factor: 1.600

31 in total

1. Fluorescence-intensity distribution analysis and its application in biomolecular detection technology.

Authors: P Kask; K Palo; D Ullmann; K Gall
Journal: Proc Natl Acad Sci U S A Date: 1999-11-23 Impact factor: 11.205

2. Fluorescence intensity multiple distributions analysis: concurrent determination of diffusion times and molecular brightness.

Authors: K Palo; U Mets; S Jäger; P Kask; K Gall
Journal: Biophys J Date: 2000-12 Impact factor: 4.033

Time-integrated fluorescence cumulant analysis and its application in living cells.

1. Fluorescence-intensity distribution analysis and its application in biomolecular detection technology.

2. Fluorescence intensity multiple distributions analysis: concurrent determination of diffusion times and molecular brightness.

Review 3. Coactivator and corepressor complexes in nuclear receptor function.

4. Dual-color time-integrated fluorescence cumulant analysis.

5. Dual-color photon counting histogram analysis of mRFP1 and EGFP in living cells.

6. Determining the stoichiometry of protein heterocomplexes in living cells with fluorescence fluctuation spectroscopy.

7. Structural basis for the coevolution of a viral RNA-protein complex.

8. The photon counting histogram in fluorescence fluctuation spectroscopy with non-ideal photodetectors.

9. High-order fluorescence fluctuation analysis of model protein clusters.

10. Quantification of the vitamin D receptor-coregulator interaction.

Review 1. Advanced fluorescence microscopy methods for the real-time study of transcription and chromatin dynamics.

2. Combined FCS and PCH Analysis to Quantify Protein Dimerization in Living Cells.