In this work we will present our current advances in the development of the CCA (Comprehensive Correlation Analysis) technique using the Zeiss Airyscan detector. This detector consists of 32 GaAsP PMT arranged in a hexagonal pattern, featuring a fast temporal sampling (down to 1.28 μs per frame). It can also be used in a super-resolution configuration as per the ISM [1] principle, while the arrangement of the detectors allows for the implementation of advanced state-of-the-art spatiotemporal correlation techniques. We will present a novel application of the spot-variation FCS technique [2] in super-resolution, as well as the implementation of the 2D-pCF [3], iMSD [4] and number and brightness [5] analysis using this fast detector array. This simultaneous analysis of the same dataset provides biophysical information regarding the fluorescent probe and the surrounding environment, such as diffusion coefficient, concentration, diffusion modality, environment organization, direction and anisotropy of molecular flows, diffusion connectivity and oligomerization state in a single analysis in a few seconds.
Airyscan Cca Provides Structural and Dynamics Fingerprinting of Subcellular Compartments in Living Cells
Lanzano′, Luca;Diaspro, Alberto;
2019-01-01
Abstract
In this work we will present our current advances in the development of the CCA (Comprehensive Correlation Analysis) technique using the Zeiss Airyscan detector. This detector consists of 32 GaAsP PMT arranged in a hexagonal pattern, featuring a fast temporal sampling (down to 1.28 μs per frame). It can also be used in a super-resolution configuration as per the ISM [1] principle, while the arrangement of the detectors allows for the implementation of advanced state-of-the-art spatiotemporal correlation techniques. We will present a novel application of the spot-variation FCS technique [2] in super-resolution, as well as the implementation of the 2D-pCF [3], iMSD [4] and number and brightness [5] analysis using this fast detector array. This simultaneous analysis of the same dataset provides biophysical information regarding the fluorescent probe and the surrounding environment, such as diffusion coefficient, concentration, diffusion modality, environment organization, direction and anisotropy of molecular flows, diffusion connectivity and oligomerization state in a single analysis in a few seconds.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.