Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions

Bollmann, Stefan; Löllmann, Marc; Sauer, Markus; Doose, Soeren

Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions

Bollmann S, Löllmann M, Sauer M, Doose S (2011)
Physical Chemistry Chemical Physics 13(28): 12874-12882.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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DOI

https://doi.org/10.1039/c1cp21111k

Autor*in

Bollmann, Stefan; Löllmann, Marc^UniBi; Sauer, Markus; Doose, Soeren

Einrichtung

Fakultät für Physik

Abstract / Bemerkung

Stacking interactions between organic fluorophores can cause formation of non-fluorescent H-dimers. Dimer formation and dissociation of two fluorophores site-specifically incorporated in a biomolecule result in fluorescence intermittency that can report on conformational dynamics. We characterize intramolecular dimerization of two oxazine fluorophores MR121 attached to an unstructured polypeptide. Formation of stable non-fluorescent complexes with nano- to microsecond lifetimes is a prerequisite for analysing the intermittent fluorescence emission by fluorescence correlation spectroscopy and extracting relaxation time constants on nano- to millisecond time scales. Destabilization of the generally very stable homodimers by chemical denaturation reduces the lifetime of H-dimers. We demonstrate that H-dimer formation of an oxazine fluorophore reports on end-to-end contact rates in unstructured glycine-serine polypeptides under denaturing conditions.

Erscheinungsjahr

2011

Zeitschriftentitel

Physical Chemistry Chemical Physics

Band

Ausgabe

Seite(n)

12874-12882

ISSN

1463-9076

eISSN

1463-9084

Page URI

https://pub.uni-bielefeld.de/record/2326769

Zitieren

Bollmann S, Löllmann M, Sauer M, Doose S. Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions. Physical Chemistry Chemical Physics. 2011;13(28):12874-12882.

Bollmann, S., Löllmann, M., Sauer, M., & Doose, S. (2011). Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions. Physical Chemistry Chemical Physics, 13(28), 12874-12882. https://doi.org/10.1039/c1cp21111k

Bollmann, Stefan, Löllmann, Marc, Sauer, Markus, and Doose, Soeren. 2011. “Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions”. Physical Chemistry Chemical Physics 13 (28): 12874-12882.

Bollmann, S., Löllmann, M., Sauer, M., and Doose, S. (2011). Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions. Physical Chemistry Chemical Physics 13, 12874-12882.

Bollmann, S., et al., 2011. Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions. Physical Chemistry Chemical Physics, 13(28), p 12874-12882.

S. Bollmann, et al., “Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions”, Physical Chemistry Chemical Physics, vol. 13, 2011, pp. 12874-12882.

Bollmann, S., Löllmann, M., Sauer, M., Doose, S.: Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions. Physical Chemistry Chemical Physics. 13, 12874-12882 (2011).

Bollmann, Stefan, Löllmann, Marc, Sauer, Markus, and Doose, Soeren. “Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions”. Physical Chemistry Chemical Physics 13.28 (2011): 12874-12882.

Daten bereitgestellt von European Bioinformatics Institute (EBI)

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