Frank Stühmeier scite author profile

The structure of three-way DNA junctions with and without extrahelical adenine nucleotides in one strand at the branch point of the junction (i.e., An bulges with n = 0, 1, 2, and 3) has been investigated by fluorescence resonance energy transfer. The structure of the junction without bulged nucleotides was found to have a symmetric trigonal geometry. With bulges, the arrangement of the arms becomes asymmetrical. The energy transfer results suggest a model of bulged junctions where the angle between two of the arms is significantly smaller than between the other two pairs of arms. The acute angle becomes smaller as the number of nucleotides in the bulge increases. The FRET efficiencies of the junctions are the same in the presence of Mg++ and Na+ ions.

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FLIM FRET Technology for Drug Discovery: Automated Multiwell‐Plate High‐Content Analysis, Multiplexed Readouts and Application in Situ

Kumar

Alibhai

Margineanu

et al. 2011

ChemPhysChem

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A fluorescence lifetime imaging (FLIM) technology platform intended to read out changes in Förster resonance energy transfer (FRET) efficiency is presented for the study of protein interactions across the drug-discovery pipeline. FLIM provides a robust, inherently ratiometric imaging modality for drug discovery that could allow the same sensor constructs to be translated from automated cell-based assays through small transparent organisms such as zebrafish to mammals. To this end, an automated FLIM multiwell-plate reader is described for high content analysis of fixed and live cells, tomographic FLIM in zebrafish and FLIM FRET of live cells via confocal endomicroscopy. For cell-based assays, an exemplar application reading out protein aggregation using FLIM FRET is presented, and the potential for multiple simultaneous FLIM (FRET) readouts in microscopy is illustrated.

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Automated fluorescence lifetime imaging plate reader and its application to Förster resonant energy transfer readout of Gag protein aggregation

Alibhai

Kelly

Warren

et al. 2012

Journal of Biophotonics

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Fluorescence lifetime measurements can provide quantitative readouts of local fluorophore environment and can be applied to biomolecular interactions via Förster resonant energy transfer (FRET). Fluorescence lifetime imaging (FLIM) can therefore provide a high content analysis (HCA) modality to map protein-protein interactions (PPIs) with applications in drug discovery, systems biology and basic research. We present here an automated multiwell plate reader able to perform rapid unsupervised optically sectioned FLIM of fixed and live biological samples and illustrate its potential to assay PPIs through application to Gag protein aggregation during the HIV life cycle. We demonstrate both hetero-FRET and homo-FRET readouts of protein aggregation and report the first quantitative evaluation of a FLIM HCA assay by generating dose response curves through addition of an inhibitor of Gag myristoylation. Z ′ factors exceeding 0.6 are realised for this FLIM FRET assay.Fluorescence lifetime plate map with representative images of high and low FRET cells and corresponding dose response plot.

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Fluorescence energy transfer analysis of DNA structures containing several bulges and their interaction with CAP 1 1Edited by I. Tinoco

Stühmeier

Hillisch²,

Clegg

et al. 2000

Journal of Molecular Biology

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Open Source High Content Analysis Utilizing Automated Fluorescence Lifetime Imaging Microscopy

Görlitz

Kelly

Warren

et al. 2017

JoVE

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We present an open source high content analysis instrument utilizing automated fluorescence lifetime imaging (FLIM) for assaying protein interactions using Förster resonance energy transfer (FRET) based readouts of fixed or live cells in multiwell plates. This provides a means to screen for cell signaling processes read out using intramolecular FRET biosensors or intermolecular FRET of protein interactions such as oligomerization or heterodimerization, which can be used to identify binding partners. We describe here the functionality of this automated multiwell plate FLIM instrumentation and present exemplar data from our studies of HIV Gag protein oligomerization and a time course of a FRET biosensor in live cells. A detailed description of the practical implementation is then provided with reference to a list of hardware components and a description of the open source data acquisition software written in µManager. The application of FLIMfit, an open source MATLAB-based client for the OMERO platform, to analyze arrays of multiwell plate FLIM data is also presented. The protocols for imaging fixed and live cells are outlined and a demonstration of an automated multiwell plate FLIM experiment using cells expressing fluorescent protein-based FRET constructs is presented. This is complemented by a walk-through of the data analysis for this specific FLIM FRET data set.

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