Sebastian Wierer scite author profile

Sebastian Wierer

3Publications

15Citation Statements Received

84Citation Statements Given

How they've been cited

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Affiliations

University of Konstanz, University of Tübingen

Publications

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Determination of the in vivo redox potential by one-wavelength spectro-microscopy of roGFP

et al. 2012

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For the quantitative analysis of molecular processes in living (plant) cells, such as the perception and processing of environmental and endogenous signals, new combinatorial approaches in optical and spectroscopic technologies are required and partly already became established in many fields of the life sciences. One hallmark of the in vivo analysis of cell biological processes is the use of visible fluorescent proteins to create fluorescent fusion proteins. Recent progress has been made in generating a redox-sensitive mutant of green fluorescent proteins (roGFP), which exhibits alterations in its spectral properties in response to changes in the redox state of the surrounding medium. An established method to probe the local redox potential using roGFP is based on a ratiometric protocol. This readout modality requires two excitation wavelengths, which makes the technique less suited for in vivo studies of e.g. dynamic samples. We clarify the origin of the redox sensitivity of roGFP by ab initio calculations, which reveal a changed protonation equilibrium of the chromophore in dependence on the redox potential. Based on this finding, we test and compare different spectroscopic readout modalities with single wavelength excitation to determine the local redox potential and apply these techniques to live cell analytics.

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TrmBL2 from Pyrococcus furiosus Interacts Both with Double-Stranded and Single-Stranded DNA

et al. 2016

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In many hyperthermophilic archaea the DNA binding protein TrmBL2 or one of its homologues is abundantly expressed. TrmBL2 is thought to play a significant role in modulating the chromatin architecture in combination with the archaeal histone proteins and Alba. However, its precise physiological role is poorly understood. It has been previously shown that upon binding TrmBL2 covers double-stranded DNA, which leads to the formation of a thick and fibrous filament. Here we investigated the filament formation process as well as the stabilization of DNA by TrmBL2 from Pyroccocus furiosus in detail. We used magnetic tweezers that allow to monitor changes of the DNA mechanical properties upon TrmBL2 binding on the single-molecule level. Extended filaments formed in a cooperative manner and were considerably stiffer than bare double-stranded DNA. Unlike Alba, TrmBL2 did not form DNA cross-bridges. The protein was found to bind double- and single-stranded DNA with similar affinities. In mechanical disruption experiments of DNA hairpins this led to stabilization of both, the double- (before disruption) and the single-stranded (after disruption) DNA forms. Combined, these findings suggest that the biological function of TrmBL2 is not limited to modulating genome architecture and acting as a global repressor but that the protein acts additionally as a stabilizer of DNA secondary structure.

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Determination of the in vivo redox potential using roGFP and fluorescence spectra obtained from one-wavelength excitation

Wierer

Elgass

Bieker

et al. 2011

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