Determination of two-photon photoactivation rates of fluorescent proteins

Determination of two-photon photoactivation rates of fluorescent proteins

The application of two-photon activation of photoactivatable fluorescent proteins is limited by a lack of information about two-photon activation rates. Here we present rates for the commonly used photoactivatable proteins PAmCherry, PAmKate and PA-GFP at different wavelengths using a novel method t...

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Bibliographic Details
Published in:Physical chemistry chemical physics : PCCP Vol. 15; no. 36; p. 14868
Main Authors: Hartwich, Tobias M P, Subach, Fedor V, Cooley, Lynn, Verkhusha, Vladislav V, Bewersdorf, Joerg
Format: Journal Article
Language:English
Published: England 28-09-2013
Subjects:
Bacteria - chemistry
Bacteria - cytology
Cells, Cultured
Luminescent Proteins - chemistry
Photochemical Processes
Photons
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Summary:The application of two-photon activation of photoactivatable fluorescent proteins is limited by a lack of information about two-photon activation rates. Here we present rates for the commonly used photoactivatable proteins PAmCherry, PAmKate and PA-GFP at different wavelengths using a novel method that allows us to determine the two-photon activation rates directly, independent of any reference data, with microscopic sample volumes. We show that PAmCherry features the highest rates of the tested proteins at 700 nm activation wavelength followed by PAmKate. Towards longer wavelengths, two-photon activation rates decrease for all three proteins. For PAmCherry, our data contradicts an activation model relying solely on two-photon activation and suggests additional activation pathways requiring at least two absorption steps. Our method is readily expandable to other photoactivatable fluorescent molecules. The presented results allow optimization of experimental conditions in spectroscopic and imaging techniques such as super-resolution fluorescence microscopy.
ISSN:1463-9084
DOI:10.1039/c3cp51035b