Měření membránového napětí pomocí napěťově citlivých barviv ve fluorescenční mikroskopii / Membrane potential measurement with voltage sensitive dyes in fluorescence microscopy

Tkáč, Jan

January 2013

The aim of this work is to make a literature search in the measurement of membrane voltage using voltage-sensitive dyes and suggest a method for measuring the membrane voltage on the available cells using the voltage-sensitive dye di 4 ANEPPS and its further implementation. The work contains an introduction to electrophysiology of cells, and explains typical fluorescence characteristics. The thesis contains the description of a fluorescence microscope. The document presents characteristics of voltage-sensitive dyes and their distribution. A large part of the work describes the implementation and measurement of the experiment. The document also includes different methods for measuring and processing of all results.

Cytotoxicita vybraných naftochinonů na prostatických buněčných liniích / Cytotoxicity of selected naphthoquinones on prostatic cell cultures

Mondeková, Věra

January 2013

This master´s thesis discusses cytotoxicity of selected naphthoquinones on prostatic cell cultures. The introductory part is dedicated to general characteristic of naphthoquinones with focus on their cytotoxicity, testing of cytotoxicity and mechanisms of cytotoxicity. This part is followed by chapters about cytotoxicity, characteristics and biological activities of selected naphthoquinones; plumbagin and naphthazarin. The last part of this thesis’ theoretical section speaks about fluorescence microscopy and its use in research of naphthoquinones cytotoxicity. The practical part is dedicated to evaluation of cytotoxical tests’ results and to analysation of pictures of cells obtained by fluorescence microscope. At the end of thesis, all finding are summarized and put in the context.

Měření membránového napětí pomocí napěťově citlivých barviv / Membrane potential measurement with voltage sensitive dyes

Votavová, Barbora

January 2013

The aim of this work is to realize measurements of membrane potential with voltagesensitive dye Di-4-ANEPPS and the data processed and analyzed. The work includes theoretical basis in the form of electrophysiology animal cells, explains fluorescence and describes the fluorescence microscope. The document is largely devoted to the characterization and distribution of voltage-sensitive dyes (VSD). The practical part deals with the various components necessary to perform the experiment as a pulse generator, high-speed camera and camera’s acquisition and describes experiment. The conclusion will be compared with results from theoretical assumptions.

Analýza mazaného kontaktu poddajných těles / Analysis of lubricated compliant contact

Dočkal, Kryštof

January 2015

This diploma thesis deals with the proposal of methodology for film thickness eva- luation within compliant contacts. With respect to characteristics of such contact pairs, like variable film thickness, high surface roughness, or poor conductivity and reflectivity, the usage of conventional experimental methods is particularly complicated. In present study, an optical method based on the principle of fluo- rescent microscopy was employed in present thesis. An evaluation algorithm in- volving background normalization and calibration of fluorescent intensity to film thickness was created in a form of experimental software. The proposed algori- thm was validated by using elastohydrodynamic contact formed between ceramic ball and glass disc. The measured film thickness was compared with theoretical prediction, while very good agreement of obtained data was observed. Further, a series of experiments with compliant samples was conducted, while the central film thickness was evaluated as a function of mean speed, applied lubricant, ap- plied load and slide-to-roll ratio. The last part of the thesis is focused on results analysis and discussion considering the previously published literature.

Využití vybraných fluorescenčních technik ke studiu kvasinek a jejich metabolitů / Use of selected fluorescence techniques to study of yeasts and yeast metabolites

Mikheichyk, Nadzeya

January 2016

The scope of thesis was the optimization of methods for the study of yeast and their metabolites using flow cytometry and fluorescence microscopy. Red yeasts are characterized by overproduction of carotenoids and lipids, which are used in food, pharmaceutical and feed industries. Currently, intensive research is being carried on to find appropriate microbiological alternatives for synthesis of these substances. Present thesis is focused on selected yeast genera: Rhodotorula, Sporobolomyces, Cystofilobasidium and strain Phaffia rhodozyma. Yeasts were cultivated on different nutrient media, in which glucose was used as a nutritional source, and also on glycerol and whey as waste material. In two strains - Cystofilobasidium macerans and Rhodotorula mucilaginosa growth characteristics were determined on a synthetic glucose production medium. All studied strains were able to use waste substrates as a source of nutrients. Some of the strains displayed increased production of carotenoids, and, additionally, in some cases also relatively high production of lipids. In classical cultivation in lipid and glucose medium supplemented with vitamins the best production characteristics displayed Rhodotorula glutinisstrain. In glycerol medium the highest amount of carotenoids and lipidic substances produced Sporobolomyces shibatanus strain. Strain Sporobolomyces roseus showed the best production characteristics on whey as the main source of carbon. The results show use of whey and glycerol seems like appropriate option for potential carbon source to cultivate carotenogenic yeasts and production of carotenoids and selected lipidic substances as products with higher added value. Further optimization of nutrient medium on the given substrates is needed for higher production of selected metabolites. Fluorescence microscopy and flow cytometry have proved to be suitable options for determination of the observed metabolites in the cells, their amount and viability.

Studium karotenogenních kvasinek v průběhu růstu pomocí pokročilých instrumentálních technik / Study of carotenogenic yeasts doring growth by using advanced instrumental techniques

Vaněk, Martin

January 2017

This work is dealing with application of advanced fluorescence techniques for gaining knowledge about culture development during fermentation of red yeasts. Flow cytometry was used for auto-fluorescence measurement a carotenoids quantitation. It was resolved that while carotenoids are stored mainly in membranes the technique was feasible. If red yeast starts to accumulate carotenoids into lipid bodies mainly throughout the course of stationary phase, then the method starts to fail. Flow cytometric method using cell size measurement and light scatter for lipid quantitation was proved as applicable, too. However, it works only if cells are not starved. Individual calibration for each species is needed for elimination inter-species variations of intracellular structures. Fluorescence lifetime imaging microscopy was also used for studying of red yeast. Inherent ability to resolve different fluorescent species of the same molecule, which arise due to different molecular environment, helps with quantitation of cellular lipidic structures changes through the course of fermentation. Increase in the levels of carotenoids and/or rigidity of membranes was found as mechanism of protection during metabolic shifts, when intracellular content is vulnerable to damage.

Fluorescence-based nanofluidic biosensor platform for real-time measurement of protein binding kinetics / Développement d'une plateforme nanofluidique de biodétection en fluorescence pour la mesure de cinétiques d'interaction de protéines en temps-réel

Teerapanich, Pattamon

10 November 2015

L'analyse cinétique d'interactions de protéines offre une multitude d'informations sur les fonctions physiologiques de ces molécules au sein de l'activité cellulaire, et peut donc contribuer à l'amélioration des diagnostics médicaux ainsi qu'à la découverte de nouveaux traitements thérapeutiques. La résonance plasmonique de surface (SPR) est la technique de biodétection optique de référence pour les études cinétiques d'interaction de molécules biologiques. Si la SPR offre une détection en temps réel et sans marquage, elle nécessite en revanche des équipements coûteux et sophistiqués ainsi que du personnel qualifié, limitant ainsi son utilisation au sein de laboratoires de recherche académiques. Dans ces travaux de thèse, nous avons développé une plateforme de biodétection basée sur l'utilisation de nanofentes biofonctionnalisées combinées avec une détection par microscopie à fluorescence. Ce système permet l'observation en temps réel d'interactions protéines-protéines et la détermination des constantes cinétiques associées, avec des temps de réponse optimisés et une excellente efficacité de capture. La fonctionnalité du système a été démontrée par l'étude des cinétiques d'interaction de deux couples modèles de différentes affinités : le couple streptavidine/biotine et le couple IgG de souris/anti-IgG de souris. Une très bonne cohérence entre les constantes cinétiques extraites, celles obtenues par des expériences similaires réalisées en SPR et les valeurs rapportées dans la littérature montre que notre approche pourrait être facilement applicable pour l'étude cinétique d'interactions de protéines avec une sensibilité allant jusqu'au pM, sur une large gamme de constantes de dissociation. De plus, nous avons intégré un générateur de gradient de concentrations microfluidique en amont de nos nanofentes, permettant ainsi des mesures simultanées de cinétiques d'interactions à différentes concentrations d'analyte en une seule expérience. Ce système intégré offre de nombreux avantages, tels qu'une réduction de la consommation des réactifs et des temps d'analyse par rapport aux approches séquentielles classiques. Cette technologie innovante pourrait ainsi être un outil précieux non seulement pour les domaines du biomédical et de la médecine personnalisée mais aussi pour la recherche fondamentale en chimie et biologie. / Kinetic monitoring of protein-protein interactions offers fundamental insights of their cellular functions and is a vital key for the improvement of diagnostic tests as well as the discovery of novel therapeutic drugs. Surface plasmon resonance (SPR) is an established biosensor technology routinely used for kinetic studies of biomolecular interactions. While SPR offers the benefits of real-time and label-free detection, it requires expensive and sophisticated optical apparatus and highly trained personnel, thus limiting the accessibility of standard laboratories. In this PhD project, we have developed an alternative and cost-effective biosensor platform exploiting biofunctionalized nanofluidic slits, or nanoslits, combined with a bench-top fluorescence microscope. Our approach enables the visualization of protein interactions in real-time with the possibility to determine associated kinetic parameters along with optimized response times and enhanced binding efficiency. We have demonstrated the effectiveness of our devices through kinetic studies of two representative protein-receptor pairs with different binding affinities: streptavidin-biotin and mouse IgG/anti-mouse IgG interactions. Good agreement of extracted kinetic parameters between our device, SPR measurements and literature values indicated that this approach could be readily applicable to study kinetics of protein interactions with sensitivity down to 1 pM on a large scale of dissociation constants. In addition, we have incorporated a microfluidic gradient generator to our validated nanoslit device, which has allowed one-shot parallel kinetic measurements to be realized in a single-experiment. This integrated system provides advantages of diminished material consumption and analysis time over the conventional kinetic assays. We believe that this innovative technology will drive future advancements not only in the discipline of biomedical and personalized medicine, but also in basic chemical/biological research.

Etudes cinétiques

Interactions protéine-protéine

Biocapteurs

Microscopie à fluorescence

Nanofluidique

Gradient de concentration

Kinetic studies

Protein-protein interactions

Biosensors

Fluorescence microscopy

Nanofluidics

Concentration gradient

Impacto de peptídeos biologicamente ativos no empacotamento lipídico de membranas modelo /

Miasaki, Kenneth Massaharu da Fonseca

January 2020

Orientador: João Ruggiero Neto / Resumo: Os peptídeos sintéticos L1A (IDGLKAIWKKVADLLKNT-NH2, Q = +3e) e seu análogo acetilado (acL1A, Q = +2e) utilizados neste estudo foram projetados para que tenham características estruturais semelhantes ao peptídeo Polybia-MP1 extraído do veneno da vespa Polybia paulista, em que um dos dois resíduos ácidos ocupa a segunda posição na região Nterminal, e resíduos básicos são terceiros e/ou quartos vizinhos dos resíduos ácidos. Esses peptídeos possuem significativa atividade bactericida seletiva para bactérias Gram-negativas, especialmente Escherichia coli, sem serem hemolíticos. Estudos anteriores, em sistemas modelo, demonstraram que a acetilação do N-terminal resultou no aumento da atividade lítica em vesículas aniônicas (8POPC/2POPG) em comparação com o L1A, o que sugeriu perturbação do empacotamento lipídico de modo mais eficaz para o análogo que é menos carregado. Considerando que a membrana plasmática de bactérias Gram-negativas contém majoritariamente fosfatidiletanolamina (PE) e fosfatidilglicerol (PG), o presente trabalho propôs investigar o impacto dos peptídeos L1A e acL1A em membranas modelo compostas por 3POPE/1DOPG utilizando uma variedade de técnicas experimentais. Os resultados demonstraram que ambos os peptídeos induziram segregação lipídica, sendo o análogo acetilado mais eficiente em recrutar PG e segregar PE. / Abstract: The synthetic peptides L1A (IDGLKAIWKKVADLLKNT-NH2, Q = +3e) and its acetylated analog (acL1A, Q = +2e) used in this study were designed to have some structural features similar to the peptide Polybia-MP1 extracted from the venom of the wasp Polybia paulista, in which one of the acidic residues occupies the second position on the N-terminus region and basic residues are third and/or fourth neighbors of the acidic residues. These peptides display significant bactericidal activity against Gram-negative bacteria, especially Escherichia coli, being non-hemolytic. Previous work performed in model membrane systems has shown that the N-terminal acetylation led to an increase on the lytic activity in anionic vesicles (8POPC/2POPG) compared with L1A, suggesting that the less charged peptide has higher ability to perturb the lipid-packing. Considering that the Gram-negative cell membranes contain mainly phosphatidylethanolamine (PE) and phosphatidylglycerol (PG), the present work proposed to investigate the impact of L1A and acL1A on model membranes composed of 3POPE/1DOPG using a variety of experimental techniques. The results suggested that both peptides induced lipid segregation being the acetylated analog more efficient in recruiting PG and segregating PE. / Mestre

Antibióticos peptídicos.

Membranas modelo

Monocamadas de Langmuir

DLS

CD

Espectroscopia de fluorescencia.

Microscopia de fluorescencia.

Antimicrobial peptides

Model membranes

Langmuir monolayer

Fluorescence spectroscopy

Fluorescence microscopy

Spectrally resolved, three-dimensional widefield microscopy: in living zebrafish and fruit fly embryos

Jahr, Wiebke

30 May 2017

A major goal in biological imaging is to visualize interactions of different tissues, often fluorescently labeled, during dynamic processes. Only a few of these labels fit into the available spectral range without overlap, but can be separated computationally if the full spectrum of every single pixel is known. In medical imaging, hyperspectral techniques show promise to identify different tissue types without any staining. Yet, microscopists still commonly acquire spectral information either with filters, thus integrating over a few broad bands only, or point-wise, dispersing the spectra onto a multichannel detector, which is inherently slow. Light sheet fluorescence microscopy (LSFM) and optical projection tomography (OPT) are two techniques to acquire 3D microscopic data fast, photon-efficiently and gently on the specimen. LSFM works in fluorescence mode and OPT in transmission. Both are based on a fast widefield detection scheme where a 2D detector records the spatial information but leaves no room to acquire dispersed spectra. Hyperspectral imaging had not yet been demonstrated for either technique. In this work, I developed a line-scanning hyperspectral LSFM and an excitation scanning OPT to acquire 5D data (3D spatial, 1D temporal, 1D spectral) and optimized the performance of both setups to minimize acquisition times without sacrificing image contrast, spatial or spectral information. I implemented and assessed different evaluation pipelines to classify and unmix relevant features. I demonstrate the efficiency of my workflow by acquiring up to five fluorescent markers and the autofluorescence in \\zf and fruit fly embryos on my hyperspectral LSFM. I extracted both concentration maps and spectra for each of these fluorophores from the multidimensional data. The same methods were applied to investigate the transmission data from my spectral OPT, where I found evidence that OPT image formation is governed by refraction, whereas scattering and absorption only play a minor role. Furthermore, I have implemented a robust, educational LSFM on which laymen have explored the working principles of modern microscopies. This eduSPIM has been on display in the Technische Sammlungen Dresden for one year during the UNESCO international year of light. / Ein wichtiges Ziel biologischer Bildgebung ist die Visualisierung des Zusammenspiels von verschiedenen, meist fluoreszent markierten, Geweben bei dynamischen Prozessen. Nur wenige dieser Farbstoffe passen ohne Überlapp in das zur Verfügung stehende Spektrum. Sie können jedoch rechnerisch getrennt werden, wenn das gesamte Spektrum jedes Pixels bekannt ist. In medizinischen Anwendungen versprechen hyperspektrale Techniken, verschiedene Gewebetypen markierungsfrei zu identifizieren. Dennoch ist es in der Mikroskopie noch immer üblich, spektrale Information entweder mit Filtern über breiten Bändern zu integrieren, oder Punktspektren mithilfe von Dispersion zu trennen und auf einem Multikanaldetektor aufzunehmen, was inhärent langsam ist. Light Sheet Fluorescence Microscopy (LSFM) und Optical Projection Tomography (OPT) nehmen 3D Mikroskopiedaten schnell, photoneneffizient und sanft für die Probe auf. LSFM arbeitet mit Fluoreszenz, OPT in Transmission. Beide basieren auf schneller Weitfelddetektion, wobei die räumliche Information mit einem 2D Detektor aufgenommen wird, der keinen Raum lässt, um die getrennten Spektren zu messen. Hyperspektrale Bildgebung wurde bis jetzt für keine der zwei Techniken gezeigt. Ich habe ein hyperspektrales LSFM mit Linienabtastung und ein OPT mit Wellenlängenabtastung entwickelt, um 5D Daten (3D räumlich, 1D zeitlich, 1D spektral) aufzunehmen. Beide Aufbauten wurden hinsichtlich minimaler Aufnahmezeit optimiert, ohne dabei Kontrast, räumliche oder spektrale Auflösung zu opfern. Ich habe verschiedene Abläufe zum Klassifizieren und Trennen der Hauptkomponenten implementiert. Ich nehme bis zu fünf Fluorophore und Autofluoreszenz in Zebrafisch- und Fruchtfliegenembryos mit dem hyperspektralen LSFM auf und zeige die Effizienz des gesamten Ablaufes, indem ich Spektren und räumliche Verteilung aller Marker extrahiere. Die Transmissionsdaten des spektralen OPT werden mit denselben Methoden untersucht. Ich konnte belegen, dass die Bildformation im OPT massgeblich von Brechung bestimmt ist, und Streuung und Absorption nur einen geringen Beitrag leisten. Außerdem habe ich ein robustes, didaktisches LSFM gebaut, damit Laien die Funktionsweise moderner Mikroskopie erkunden können. Dieses eduSPIM war ein Jahr lang in den Technischen Sammlungen Dresden ausgestellt.

info:eu-repo/classification/ddc/570

ddc:570

Fluorescent detection of DNA single nucleotide polymorphism by electric field assisted hybridization/melting of surface-immobilized oligonucleotides

Verhaven, Alexandra

03 December 2020

RésuméLes monocouches auto-assemblées d'ADN immobilisées sur électrodes d'or sont à la base de nombreux biocapteurs électrochimiques. Le contrôle du comportement interfacial de l'ADN par le biais d'un champ électrique est intéressant pour la détection de polymorphisme nucléotidique simple (PNS). La caractérisation in situ de monocouches d'ADN à l'échelle moléculaire est importante pour la fabrication de biocapteurs robustes, fiables et sensibles.La thèse porte sur la détection du PNS dans l'ADN par le biais d'hybridation/dénaturation induite par le champ électrique. La microscopie de fluorescence sous conditions électrochimiques est utilisée comme méthodologie de détection et outil de caractérisation de l'interface d'ADN. À cette fin, des séquences d'ADN marquées par des sondes fluorescentes sont immobilisées sur des électrodes d'or sous forme de monocouches auto-assemblées (SAM) thiolées.Premièrement, les SAMs sont composées de séquences cibles présentant ou non une mutation ponctuelle. La relation entre le potentiel appliqué et la dénaturation du double brin est étudiée. La dénaturation électrochimique est observée à -0,25 V vs Ag / Deoxyribonucleic acid (DNA) self-assembled monolayers (SAMs) immobilized on gold electrodes are the basis of many electrochemical biosensors. Control of the interfacial behavior of DNA by means of an electric field is of interest for sensing applications such as the detection of single nucleotide polymorphisms (SNPs). Moreover, the in situ characterization of immobilized DNA monolayers at a molecular level is important for the fabrication of robust, reliable and sensitive sensors.The thesis aims at studying the discrimination between DNA strands containing SNPs on the basis of electric-field assisted hybridization/denaturation of DNA. In situ electrochemical fluorescence microscopy is used as a detection methodology and characterization tool for DNA interfaces. For this purpose, fluorescently labeled DNA sequences are immobilized at gold electrodes as thiol SAMs.First, the SAMs under investigation were composed of perfect match or SNP-containing target sequences. The relationship between the applied potential and the denaturation of DNA duplexes was investigated. Electrochemical melting was observed at -0.25 V vs. Ag / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Chimie des surfaces et des interfaces

self-assembled monolayers

fluorescence resonance energy transfer

electrochemical melting

gold single crystal

electrochemical fluorescence microscopy