Publication:

Reliable State Identification and State Transition Detection in Fluorescence Intensity-Based Single-Molecule Förster Resonance Energy-Transfer Data

Date

Date

Date
2018
Journal Article
Published version
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Citation copied

Hadzic, M. C. A. S., Börner, R., König, S. L. B., Kowerko, D., & Sigel, R. K. O. (2018). Reliable State Identification and State Transition Detection in Fluorescence Intensity-Based Single-Molecule Förster Resonance Energy-Transfer Data. Journal of Physical Chemistry B, 122(23), 6134–6147. https://doi.org/10.1021/acs.jpcb.7b12483

Abstract

Abstract

Abstract

Single-molecule Förster resonance energy transfer (smFRET) is a powerful technique to probe biomolecular structure and dynamics. A popular implementation of smFRET consists of recording fluorescence intensity time traces of surface-immobilized, chromophore-tagged molecules. This approach generates large and complex data sets, the analysis of which is to date not standardized. Here, we address a key challenge in smFRET data analysis: the generation of thermodynamic and kinetic models that describe with statistical rigor the behavior of

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Views

138 since deposited on 2018-06-12
137last week
Acq. date: 2025-11-13

Citations

28 in Web of Science Acq. date: 2025-08-17
29 in Scopus Acq. date: 2025-05-22

Additional indexing

Creators (Authors)

Journal/Series Title

Journal/Series Title

Journal/Series Title
Journal of Physical Chemistry B

Volume

Volume

Volume
122

Number

Number

Number
23

Page range/Item number

Page range/Item number

Page range/Item number
6134

Page end

Page end

Page end
6147

Item Type

Item Type

Item Type
Journal Article

In collections

Publications of Department of Chemistry

Dewey Decimal Classifikation

Dewey Decimal Classifikation

Dewey Decimal Classifikation
540 Chemistry and allied sciences

Keywords

Physical and Theoretical Chemistry, Materials Chemistry, Surfaces, Coatings and Films

Language

Language

Language
English

Publication date

Publication date

Publication date
2018

Date available

Date available

Date available
2018-06-12

Publisher

Publisher

Publisher
American Chemical Society (ACS)

ISSN or e-ISSN

ISSN or e-ISSN

ISSN or e-ISSN
1520-5207

OA Status

OA Status

OA Status
Closed

Free Access at

Free Access at

Free Access at
DOI

Publisher DOI

https://doi.org/10.1021/acs.jpcb.7b12483

PubMed ID

PubMed ID

PubMed ID
29737844

Project Information

Project Title
Funder name
Grant ID
Project Website
MIRNA - Metal Ions and Metal Ion Complexes Guiding Folding and Function of Single RNA Molecules
FP7
259092

Metrics

Views

138 since deposited on 2018-06-12
137last week
Acq. date: 2025-11-13

Citations

28 in Web of Science Acq. date: 2025-08-17
29 in Scopus Acq. date: 2025-05-22

Citations

Citation copied

Hadzic, M. C. A. S., Börner, R., König, S. L. B., Kowerko, D., & Sigel, R. K. O. (2018). Reliable State Identification and State Transition Detection in Fluorescence Intensity-Based Single-Molecule Förster Resonance Energy-Transfer Data. Journal of Physical Chemistry B, 122(23), 6134–6147. https://doi.org/10.1021/acs.jpcb.7b12483

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Permanent URL
https://www.zora.uzh.ch/handle/20.500.14742/142349
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