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1.
FEBS Lett ; 590(16): 2558-65, 2016 08.
Article in English | MEDLINE | ID: mdl-27406896

ABSTRACT

We focus on the spectral dependence of plasmon-induced enhancement of fluorescence of Chlorobaculum tepidum reaction centers. When deposited on silver island film, they exhibit up to a 60-fold increase in fluorescence. The dependence of enhancement factors on the excitation wavelength is not correlated with the absorption spectrum of the plasmonic structure. In particular, the presence of one (or multiple) trimers of the Fenna-Matthews-Olson (FMO) protein reveals itself in bimodal distribution of enhancement factors for the excitation at 589 nm, the wavelength corresponding to bacteriochlorophyll absorption of FMO and the core of the RC. We conclude that the structure of multichromophoric complexes can substantially affect the impact of plasmonic excitations, which is important in the context of assembling functional biohybrid systems.


Subject(s)
Bacterial Proteins/chemistry , Chlorobi/chemistry , Cytoplasm/chemistry , Fluorescence , Light-Harvesting Protein Complexes/chemistry , Bacterial Proteins/genetics , Chlorobi/genetics , Chlorobi/metabolism , Cytoplasm/genetics , Energy Transfer/genetics , Light-Harvesting Protein Complexes/genetics , Spectrometry, Fluorescence
2.
ScientificWorldJournal ; 2013: 670412, 2013.
Article in English | MEDLINE | ID: mdl-23533354

ABSTRACT

We investigate metal-enhanced fluorescence of peridinin-chlorophyll protein coupled to silver nanowires using optical microscopy combined with spectrally and time-resolved fluorescence techniques. In particular we study two different sample geometries: first, in which the light-harvesting complexes are deposited onto silver nanowires, and second, where solution of both nanostructures are mixed prior deposition on a substrate. The results indicate that for the peridinin-chlorophyll complexes placed in the vicinity of the silver nanowires we observe higher intensities of fluorescence emission as compared to the reference sample, where no nanowires are present. Enhancement factors estimated for the sample where the light-harvesting complexes are mixed together with the silver nanowires prior deposition on a substrate are generally larger in comparison to the other geometry of a hybrid nanostructure. While fluorescence spectra are identical both in terms of overall shape and maximum wavelength for peridinin-chlorophyll-protein complexes both isolated and coupled to metallic nanostructures, we conclude that interaction with plasmon excitations in the latter remains neutral to the functionality of the biological system. Fluorescence transients measured for the PCP complexes coupled to the silver nanowires indicate shortening of the fluorescence lifetime pointing towards modifications of radiative rate due to plasmonic interactions. Our results can be applied for developing ways to plasmonically control the light-harvesting capability of photosynthetic complexes.


Subject(s)
Carotenoids/chemistry , Chlorophyll/chemistry , Fluorescence , Light-Harvesting Protein Complexes/chemistry , Nanowires/chemistry , Protozoan Proteins/chemistry , Silver/chemistry , Dinoflagellida/chemistry , Microscopy, Electron, Scanning , Nanowires/ultrastructure , Protein Interaction Mapping/methods , Spectrometry, Fluorescence/methods
3.
Plasmonics ; 7(1): 115-121, 2012 Mar.
Article in English | MEDLINE | ID: mdl-22448151

ABSTRACT

We report on experimental and theoretical studies of plasmon-induced effects in a hybrid nanostructure composed of light-harvesting complexes and metallic nanoparticles in the form of semicontinuous silver film. The results of continuous-wave and time-resolved spectroscopy indicate that absorption of the light-harvesting complexes is strongly enhanced upon coupling with the metallic film spaced by 25 nm of a dielectric silica layer. This conclusion is corroborated by modeling, which confirms the morphology of the silver island film.

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