Your search keyword '"Spielmann, Thiemo"' showing total 6 results

1. Effect of optical damage resistant dopants on the dielectric properties of LiNbO3: Insight from broadband impedance spectroscopy and Raman scattering.

Author

Cochard, Charlotte, Guennou, Mael, Spielmann, Thiemo, van Hoof, Niels, Halpin, Alexei, and Granzow, Torsten

Subjects

DOPING agents (Chemistry), IMPEDANCE spectroscopy, RAMAN scattering, DIELECTRIC properties, PIEZOELECTRIC materials

Abstract

Optical damage limits the application range of congruent LiNbO3. This problem is commonly overcome by adding optical-damage-resistant cations. Here, the influence of doping with opticaldamage- resistant Mg and Zn on the ionic and piezoelectric contributions to the dielectric permittivity is investigated in a broad frequency range (1 mHz-2 THz). It is shown that the two dopants have radically different influences on the variation of ionic permittivity with doping, in spite of their similarities with respect to the crystallographic structure. Raman spectroscopy reveals that the difference in permittivity can be traced to the effect of Mg and Zn doping on the susceptibility of the phonon modes. Both observations point to differences in the defect incorporation mechanisms. [ABSTRACT FROM AUTHOR]

Published

2018

2. Transient state monitoring by total internal reflection fluorescence microscopy

Author

Spielmann, Thiemo, Blom, Hans, Geissbuehler, Matthias, Lasser, Theo, and Widengren, Jerker

Subjects

Finite element method -- Usage, Fluorescence microscopy -- Usage, Organic dyes -- Chemical properties, Organic dyes -- Optical properties, Oxidation-reduction reaction -- Analysis, Vitamin C -- Chemical properties, Chemicals, plastics and rubber industries

Published

2010

3. Cytokines Induce Faster Membrane Diffusion of MHC Class I and the Ly49A Receptor in a subpopulation of Natural Killer Cells.

Author

Bagawath-Singh, Sunitha, Staaf, Elina, Stoppelenburg, Arie Jan, Spielmann, Thiemo, Kambayash, Taku, Widengren, Jerker, and Johansson, Sofia

Subjects

CYTOKINES, CELLULAR immunity, KILLER cells

Abstract

Cytokines have the potential to drastically augment immune cell activity. Apart from altering the expression of a multitude of proteins, cytokines also affect immune cell dynamics. However, how cytokines affect the molecular dynamics within the cell membrane of immune cells has not been addressed previously. Molecular movement is a vital component of all biological processes, and the rate of motion is, thus, an inherent determining factor for the pace of such processes. Natural killer (NK) cells are cytotoxic lymphocytes, which belong to the innate immune system. By fluorescence correlation spectroscopy, we investigated the influence of cytokine stimulation on the membrane density and molecular dynamics of the inhibitory receptor Ly49A and its ligand, the major histocompatibility complex class I allele H-2Dd, in freshly isolated murine NK cells. H-2Dd was densely expressed and diffused slowly in resting NK cells. Ly49A was expressed at a lower density and diffused faster. The diffusion rate in resting cells was not altered by disrupting the actin cytoskeleton. A short-term stimulation with interleukin-2 or inter-feron-α + β did not change the surface density of moving H-2Dd or Ly49A, despite a slight upregulation at the cellular level of H-2Dd by interferon-α + β, and of Ly49A by IL-2. However, the molecular diffusion rates of both H-2Dd and Ly49A increased significantly. A multivariate analysis revealed that the increased diffusion was especially marked in a subpopulation of NK cells, where the diffusion rate was increased around fourfold compared to resting NK cells. After IL-2 stimulation, this subpopulation of NK cells also displayed lower density of Ly49A and higher brightness per entity, indicating that Ly49A may homo-cluster to a larger extent in these cells. A faster diffusion of inhibitory receptors could enable a faster accumulation of these molecules at the immune synapse with a target cell, eventually leading to a more efficient NK cell response. It has previously been assumed that cytokines regulate immune cells primarily via alterations of protein expression levels or posttranslational modifications. These findings suggest that cytokines may also modulate immune cell efficiency by increasing the molecular dynamics early on in the response. [ABSTRACT FROM AUTHOR]

Published

2016

4. Trans–Cis Isomerization of Lipophilic Dyes Probing Membrane Microviscosity in Biological Membranes and in Live Cells.

Author

Chmyrov, Volodymyr, Spielmann, Thiemo, Hevekerl, Heike, and Widengren, Jerker

Subjects

*ISOMERIZATION, *BIOLOGICAL membranes, *CELL physiology, *MEROCYANINES, *MEMBRANE proteins

Abstract

Membrane environment and fluidity can modulate the dynamics and interactions of membrane proteins and can thereby strongly influence the function of cells and organisms in general. In this work, we demonstrate that trans–cis isomerization of lipophilic dyes is a useful parameter to monitor packaging and fluidity of biomembranes. Fluorescence fluctuations, generated by trans–cis isomerization of the thiocarbocyanine dye Merocyanine 540 (MC540), were first analyzed by fluorescence correlation spectroscopy (FCS) in different alcohol solutions. Similar isomerization kinetics of MC540 in lipid vesicles could then also be monitored, and the influence of lipid polarity, membrane curvature, and cholesterol content was investigated. While no influence of membrane curvature and lipid polarity could be observed, a clear decrease in the isomerization rates could be observed with increasing cholesterol contents in the vesicle membranes. Finally, procedures to spatially map photoinduced and thermal isomerization rates on live cells by transient state (TRAST) imaging were established. On the basis of these procedures, MC540 isomerization was studied on live MCF7 cells, and TRAST images of the cells at different temperatures were found to reliably detect differences in the isomerization parameters. Our studies indicate that trans–cis isomerization is a useful parameter for probing membrane dynamics and that the TRAST imaging technique can provide spatial maps of photoinduced isomerization as well as both photoinduced and thermal back-isomerization, resolving differences in local membrane microviscosity in live cells. [ABSTRACT FROM AUTHOR]

Published

2015

5. Transient state imaging of live cells using single plane illumination and arbitrary duty cycle excitation pulse trains.

Author

Mücksch, Jonas, Spielmann, Thiemo, Sisamakis, Evangelos, and WidENgrEN, Jerker

Abstract

We demonstrate the applicability of Single Plane Illumination Microscopy to Transient State Imaging (TRAST), offering sensitive microenvironmental information together with optical sectioning and reduced overall excitation light exposure of the specimen. The concept is verified by showing that transition rates can be determined accurately for free dye in solution and that fluorophore transition rates can be resolved pixel-wise in live cells. Furthermore, we derive a new theoretical framework for analyzing TRAST data acquired with arbitrary duty cycle pulse trains. By this analysis it is possible to reduce the overall measurement time and thereby enhance the frame rates in TRAST imaging. (© 2014 WILEY-VCH Verlag GmbH &Co. KGaA, Weinheim) [ABSTRACT FROM AUTHOR]

Published

2015

6. Förster Resonance Energy Transfer beyond 10 nm: Exploiting the Triplet State Kinetics of Organic Fluorophores.

Author

Hevekerl, Heike, Spielmann, Thiemo, Chmyrov, Andriy, and Widengren, Jerker

Subjects

*FLUORESCENCE resonance energy transfer, *FLUOROPHORES, *CHEMICAL kinetics, *INTERMOLECULAR interactions, *FLUORESCENCE spectroscopy, *ALGORITHMS

Abstract

Inter- or intramolecular distances of biomolecules can be studied by Förster resonance energy transfer (FRET). For most FRET methods, the observable range of distances is limited to 1–10 nm, and the labeling efficiency has to be controlled carefully to obtain accurate distance determinations, especially for intensity-based methods. In this study, we exploit the triplet state of the acceptor fluorophore as a FRET readout using fluorescence correlation spectroscopy and transient state monitoring. The influence of donor fluorescence leaking into the acceptor channel is minimized by a novel suppression algorithm for spectral bleed-through, thereby tolerating a high excess (up to 100-fold) of donor-only labeled samples. The suppression algorithm and the high sensitivity of the triplet state to small changes in the fluorophore excitation rate make it possible to extend the observable range of FRET efficiencies by up to 50% in the presence of large donor-only populations. Given this increased range of FRET efficiencies, its compatibility with organic fluorophores, and the low requirements on the labeling efficiency and instrumentation, we foresee that this approach will be attractive for in vitro and in vivo FRET-based spectroscopy and imaging. [ABSTRACT FROM AUTHOR]

Published

2011