Characterization of distinct and conserved features between ciliate and vertebrate telomerases

Marie-Egyptienne, Delphine.

January 1900

Thesis (Ph.D.). / Written for the Dept. of Anatomy and Cell biology. Title from title page of PDF (viewed 2008/05/09). Includes bibliographical references.

The effect of sulfhydryl compounds on the sensitivity of interphase and dividing stages of Tetrahymena pyriformis W. to ultraviolet light

Sullivan, William Daniel.

January 1959

Thesis--Catholic University of America. / Reprinted from Transactions of the American Microscopical Society, v. 78, no. 2-3, 1959.

Röntgenographische Untersuchungen der Temperaturabhängigen Proteinsegregationen in Tetrahymena Endomembranen

Funk, Jens,

January 1982

Thesis (doctoral)--Albert-Ludwigs-Universität zu Freiburg im Breisgau.

Phosphatidylinositol synthase of tetrahymena utilization of inositol isomers in the headgroup exchange reaction /

Riggs, Bridget May.

January 2006

Thesis (M.S.)--University of West Florida, 2006. / Title from title page of source document. Document formatted into pages; contains 53 pages. Includes bibliographical references.

Mesoscale modeling of biological fluids: from micro-swimmers to intracellular transport

Mousavi, Sayed Iman

20 August 2019

After more than a century, there are no analytical solutions for the Navier-Stokes equations to describe complex fluid behavior, and we often resort to different computational methods to find solutions under specific conditions. In particular, to address many biological questions, we need to use techniques which are accurate at the mesoscale regime and computationally efficient, since atomistic simulations are still incredibly computationally costly, and continuum methods based on Navier-Stokes present challenges with complicated moving boundaries, in the presence of fluctuations. Here, we use a novel particle-based coarse-grained method, known as MPCD, to study ciliated swimmers. Using experimentally measured beating patterns, we show how we recapitulate the emergence of metachronal waves (MCW) on planar surfaces, and present new results on curved surfaces. To quantitatively study these waves, we also analyzed their effect on beating intervals, energy fluctuations, and fluid motion. We then extended our model to realistic cellular geometries, using experimentally obtained Basal Bodies locations.\par In the second part of our study, we focused on the intracellular fluid motion, neglecting hydrodynamic interactions. We developed the Digital Confocal Microscopy Suite (DCMS) that can run on multiple platforms using GPUs and can input realistic cell shapes and optical properties of the confocal microscope. It has this ability to simulate both (Fluorescence Recovery After Photobleaching) FRAP and Fluorescence Correlation Spectroscopy (FCS) experiments, as well as the capability to model photo-switching of fluorophores, acquisition photo-bleaching, and reaction-diffusion systems. With this platform, in collaboration with the Vidali Lab, we were able to elucidate the role of boundaries in interpreting FRAP experiments in \textit{moss} and estimate the binding rates of myosin XI.

MPCD

FRAP

Brownian dynamics

cilia

microscopy

tetrahymena

Mesoscale modeling of biological fluids: from micro-swimmers to intracellular transport

Mousavi, Sayed Iman

19 August 2019

After more than a century, there are no analytical solutions for the Navier-Stokes equations to describe complex fluid behavior, and we often resort to different computational methods to find solutions under specific conditions. In particular, to address many biological questions, we need to use techniques which are accurate at the mesoscale regime and computationally efficient, since atomistic simulations are still incredibly computationally costly, and continuum methods based on Navier-Stokes present challenges with complicated moving boundaries, in the presence of fluctuations. Here, we use a novel particle-based coarse-grained method, known as MPCD, to study ciliated swimmers. Using experimentally measured beating patterns, we show how we recapitulate the emergence of metachronal waves (MCW) on planar surfaces, and present new results on curved surfaces. To quantitatively study these waves, we also analyzed their effect on beating intervals, energy fluctuations, and fluid motion. We then extended our model to realistic cellular geometries, using experimentally obtained Basal Bodies locations.\par In the second part of our study, we focused on the intracellular fluid motion, neglecting hydrodynamic interactions. We developed the Digital Confocal Microscopy Suite (DCMS) that can run on multiple platforms using GPUs and can input realistic cell shapes and optical properties of the confocal microscope. It has this ability to simulate both (Fluorescence Recovery After Photobleaching) FRAP and Fluorescence Correlation Spectroscopy (FCS) experiments, as well as the capability to model photo-switching of fluorophores, acquisition photo-bleaching, and reaction-diffusion systems. With this platform, in collaboration with the Vidali Lab, we were able to elucidate the role of boundaries in interpreting FRAP experiments in \textit{moss} and estimate the binding rates of myosin XI.

MPCD

FRAP

Brownian dynamics

cilia

microscopy

tetrahymena

p28 DYNEIN LIGHT CHAINS AND CILIARY MOTILITY IN Tetrahymena thermophila

Subramanian, Aswati

17 January 2014

No description available.

Biology

The functional evolution of telomere proteins in Tetrahymena thermophila

Cranert, Stacey

January 2014

No description available.

Cellular Biology

chromosome breakage

Pot2

telomere

Tetrahymena

Analysis of isoleucyl-tRNA synthetase genes from Tetrahymena thermophila and Saccharomyces cerevisiae

Csank, Csilla J. M.

January 1991

No description available.

Saccharomyces cerevisiae -- Genetics.

Tetrahymena thermophila -- Genetics

Reaktive Toxizität in vitro

Laqua, Anja

07 February 2014

Es wird eine Bioassay-Analyse von 168 Testsubstanzen gegenüber Tetrahymena pyriformis beschrieben. Mithilfe dieses In-vitro-Ansatzes konnte eine erste prognostische Aussage über die toxische Wirkung unbekannter Stoffe getroffen werden. Aus den Konzentrations-Wirkungs-Beziehungen erfolgte eine Bestimmung der Toxizitätserhöhung gegenüber der Narkoselevel-Toxizität. Dadurch war eine mechanistische Interpretation der Wirkstärke der Fremdstoffe möglich. Die Wirkung der Fremdstoffe basiert auf direkten toxikologisch relevanten Reaktionsmechanismen mit nukleophilen Biomolekülen oder nach entsprechender enzymatischer Aktivierung und ermöglichte die Aufstellung von Strukturalarmen. Aus jeder Stoffklasse waren Vertreter direkt oder nach enzymatischer Biotransformation erhöht toxisch. Somit ist mithilfe der Ciliaten eine Vorhersage der direkten reaktiven Toxizität möglich. Zudem enthält es für eine metabolische Aktivierung bedeutsame Enzymsysteme. Damit ist es für eine prognostische Vorhersage der Toxizität unbekannter Stoffe anwendbar.

Tetrahymena pyriformis GL

log Te

Elektrophile

Tetrahymena pyriformis GL

log Te

elektrophiles

ddc:570

Bioassay

Tetrahymena pyriformis

In-vitro-Kultur

Wimpertierchen

Toxizität