Three-color Förster resonance energy transfer within single F[sub O]F[sub 1]-ATP synthases: monitoring elastic deformations of the rotary double motor in real time

Abstract: Abstract. Catalytic activities of enzymes are associated with elastic conformational changes of the protein backbone. Förster-type resonance energy transfer, commonly referred to as FRET, is required in order to observe the dynamics of relative movements within the protein. Förster-type resonance energy transfer between two specifically attached fluorophores provides a ruler with subnanometer resolution between 3 and 8 nm, submillisecond time resolution for time trajectories of conformational changes, and sing… Show more

“…Fluorescence photons were detected by three single-photon counting avalanche photodiodes (SPCM-AQRH-14, Excelitas or Perkin-Elmer) for simultaneous spectrally-resolved FLIM and time-resolved anisotropy measurements 23 . Three synchronized TCSPC cards (SPC 153, Becker&Hickl) recorded the photons [24][25][26] . FLIM and time-resolved anisotropy images were analyzed using the SPCImage software (Becker&Hickl), whereas intensity-based anisotropy imaging was analyzed using counter cards (National Instruments) and custom Matlab scripts (Mathworks) [27][28][29][30][31][32][33][34][35] .…”

Imaging cytochrome C oxidase and F_oF₁-ATP synthase in mitochondrial cristae of living human cells by FLIM and superresolution microscopy

“…Fluorescence photons were detected by three single-photon counting avalanche photodiodes (SPCM-AQRH-14, Excelitas or Perkin-Elmer) for simultaneous spectrally-resolved FLIM and time-resolved anisotropy measurements 23 . Three synchronized TCSPC cards (SPC 153, Becker&Hickl) recorded the photons [24][25][26] . FLIM and time-resolved anisotropy images were analyzed using the SPCImage software (Becker&Hickl), whereas intensity-based anisotropy imaging was analyzed using counter cards (National Instruments) and custom Matlab scripts (Mathworks) [27][28][29][30][31][32][33][34][35] .…”

Imaging cytochrome C oxidase and F_oF₁-ATP synthase in mitochondrial cristae of living human cells by FLIM and superresolution microscopy

“…SmFRET was also applied to detect a reversible, elastic twisting mode within the rotor subunits ε and c of F o F 1 -ATP synthase during ATP hydrolysis and synthesis [52, 53] . Transient elastic energy storage had been postulated to address the symmetry mismatch of the F 1 and F o motor step sizes and to ensure maximum efficiency of motor operation (experimental details are summarized in [2, 54] ).…”

“…Transient elastic energy storage had been postulated to address the symmetry mismatch of the F 1 and F o motor step sizes and to ensure maximum efficiency of motor operation (experimental details are summarized in [2, 54] ). Using three different specifically attached fluorophores on a single F o F 1 -ATP synthase (EGFP- a fusion on the stator, Alexa532-ε and Cy5- c on rotor), we could show that the distances between markers on residues ε56 and c 2 fluctuated during rotor movement, indicating a twisting up to three single steps of c or 108°, respectively [52] .…”

Spotlighting motors and controls of single FoF1-ATP synthase

“…The direction of rotation reverses when the enzyme switches from ATP synthesis to ATP hydrolysis. Elastic properties of the central rotor subunits compensate the mismatch of step sizes [23][24][25][26][27][28][29][30][31][32][33][34][35][36][37] . Yet, the drawbacks of these initial measurements are short observation times and large intensity fluctuations inherent to single molecules freely diffusing through a confocal detection volume.…”

Confining Brownian motion of single nanoparticles in an ABELtrap