Two-Photon Excitation, Fluorescence Microscopy, and Quantitative Measurement of Two-Photon Absorption Cross Sections

DeArmond, Fredrick Michael

01 December 2017

As optical microscopy techniques continue to improve, most notably the development of super-resolution optical microscopy which garnered the Nobel Prize in Chemistry in 2014, renewed emphasis has been placed on the development and use of fluorescence microscopy techniques. Of particular note is a renewed interest in multiphoton excitation due to a number of inherent properties of the technique including simplified optical filtering, increased sample penetration, and inherently confocal operation. With this renewed interest in multiphoton fluorescence microscopy, comes an increased demand for robust non-linear fluorescent markers, and characterization of the associated tool set. These factors have led to an experimental setup to allow a systematized approach for identifying and characterizing properties of fluorescent probes in the hopes that the tool set will provide researchers with additional information to guide their efforts in developing novel fluorophores suitable for use in advanced optical microscopy techniques as well as identifying trends for their synthesis. Hardware was setup around a software control system previously developed [1]. Three experimental tool sets were set up, characterized, and applied over the course of this work. These tools include scanning multiphoton fluorescence microscope with single molecule sensitivity, an interferometric autocorrelator for precise determination of the bandwidth and pulse width of the ultrafast Titanium Sapphire excitation source, and a simplified fluorescence microscope for the measurement of two-photon absorption cross sections. Resulting values for two-photon absorption cross sections and two-photon absorption action cross sections for two standardized fluorophores, four commercially available fluorophores, and ten novel fluorophores are presented as well as absorption and emission spectra.

Fluorescence microscopy

Fluorescent probes

Two-photon absorbing materials

Physics

Fluorescent and Photocaged Lipids to Probe the Ceramide-mediated Reorganization of Biological Membranes

Carter Ramirez, Daniel Marcelo

23 January 2013

This thesis describes the development of novel fluorescent and photocaged lipids, and their application as tools to probe the morphological effects of ceramide (Cer)-mediated membrane reorganization in supported lipid bilayers. Cer is a sphingolipid found in eukaryotic cells that plays a key role in regulating biological processes such as apoptosis, cell-to-cell communication, differentiation and some types of pathogenesis. Sphingolipid and cholesterol-rich lipid rafts in the plasma membrane are thought to be the point of origin for many of this lipid second messenger’s effects. Cer is formed in the exoplasmic leaflet of the plasma membrane via the enzymatic hydrolysis of sphingomyelin. The compositional complexity of biological membranes has prompted the adoption of simpler model systems to study the effects of Cer generation. When it is directly incorporated into model membranes, Cer segregates into highly ordered domains with physical properties that are distinct from those of the surrounding fluid environments. However, enzymatic generation of Cer induces complex and dynamic membrane heterogeneity that is difficult to interpret and reconcile with its direct incorporation. Here I describe the synthesis of 4-nitrobenzo-2-oxa-1,3-diazol-7-yl (NBD)-labelled cholesterol (Chol) and Cer analogs, and their use as probes in model membranes exhibiting liquid-disordered (Ld) and liquid-ordered (Lo) phase coexistence. The Chol probes reproduce the modest enrichment of Chol in Lo membrane domains as well as the Cer-induced displacement of cholesterol. One of the NBD Chol probes is used to provide direct visualization of Chol redistribution during enzymatic Cer generation, and assists in identifying new features as Cer-rich regions. The NBD-labelled Cer quantifies membrane order using orientational order parameter measurements derived from polarized total internal reflection fluorescence microscopy (pTIRFM) images. The probe reports on changes in membrane order upon enzymatic generation of Cer, and indicates a significant increase in the molecular order of Ld membrane regions that is consistent with the redistribution of Chol into these areas. The probe also identifies de novo Cer-rich domains as areas of particularly high molecular order. In the final project area, 6-Bromo-7-hydroxycoumarin-4-ylmethyl (Bhc)-caged Cers are shown to release Cer rapidly and efficiently upon irradiation with near-visible UV light. The caged lipids are then incorporated into supported membranes and photolyzed to release Cer with a high degree of spatial and temporal control. Controlled Cer generation is then used to drive protein-ganglioside clustering in lipid bilayers.

Lipid rafts

Ceramide

Photocages

Fluorescent probes

Model membranes

Fluorescence microscopy

Development of an oxidatively-releasable caged biosensor system and application to the release of antioxidants and fluorescent probes /

Trumbull, Kari Adele,

January 2007

Thesis (Ph. D.)--University of Oregon, 2007. / Typescript. Includes vita and abstract. Includes bibliographical references (leaves 137-158). Also available for download via the World Wide Web; free to University of Oregon users.

k-Space image correlation spectroscopy theory, verification, and applications /

Kolin, David L.

January 1900

Thesis (Ph.D.). / Written for the Dept. of Chemistry. Title from title page of PDF (viewed 2008/01/12). Includes bibliographical references.

Fluorescence resonance energy transfer studies of protein interactions /

Martin, Sarah Friede.

January 2008

Thesis (Ph.D.) - University of St Andrews, May 2008.

Synthesis and spectroscopic characterization of fluorescent boron dipyrromethene (BDP) probes for site specific bioorthogonal labeling of proteins

Dilek, Özlem.

January 2009

Thesis (Ph. D.)-- State University of New York at Binghamton, Department of Chemistry, 2009.

Localização e dinâmica de sondas fluorescentes em modelos de membranas: estudos por dinâmica molecular e anisotropia de fluorescência resolvida no tempo / Location and dynamics of fluorescent probes in model membranes: study by Molecular Dynamics and Time-resolved Fluorescence Anisotropy.

Sérgio Leandro Espindola Preza

27 August 2013

As moléculas AHBA (2-Amino-N-hexadecil-benzamida) e DPH (1,6-Difenil-1,3,5- hexatrieno) são sondas fluorescentes com características particulares, comumente utilizadas para monitorar diferentes regiões das bicamadas lipídicas, no entanto, pouco se sabe sobre a mobilidade e dinâmica destas sondas em membranas e quais os principais fatores que influenciam as suas interações com solventes polares e apolares. Esta tese teve por objetivo estudar essas sondas em diferentes ambientes, para ampliar o entendimento de suas estruturas, mobilidade e dinâmicas rotacionais em diferentes solventes e em bicamadas lipídicas. Utilizou-se a técnica de Dinâmica Molecular (DM) para obter as trajetórias das sondas em caixas com diferentes proporções de água e 1,4-dioxano e também nas membranas de POPC (1-palmitoil-2-oleoil-sn-glicerol-3-fosfocolina) e DMPC (1,2-dimiristoil-sn-glicerol-3-fosfocolina). Com as trajetórias geradas, foram analisadas a estrutura, a solvatação e a dinâmica rotacional das sondas em misturas de solventes e membranas modelo. Para as DM em solventes, os resultados indicaram um comportamento atípico das duas moléculas, com a diminuição da interação com a água a medida que diminuía-se a proporção de 1,4-dioxano na caixa. Em membranas, a localização e mobilidade da sonda AHBA apresentaram comportamento semelhante em POPC e DMPC, com os tempos obtidos a partir da curva de autocorrelação rotacional do seu dipolo comparáveis aos medidos pelo experimento de anisotropia de fluorescência resolvida no tempo. Já para o DPH, os resultados em POPC indicaram que a sonda alinha-se paralelamente à superfície da membrana e apresenta muito mais liberdade para se movimentar quando comparada às aos resultados de DM em DMPC, onde a sonda se alinhou paralelamente às caudas dos fosfolipídios e teve uma restrição bem maior para seus movimentos. Os tempos de correlação rotacional do seu dipolo em POPC apresentaram boa concordância com os obtidos experimentalmente. Em contrapartida, os resultados em DMPC mostraram que é preciso mais tempo de DM para comparação entre a correlação rotacional teórica e a experimental, por ser um sistema mais compactado. De qualquer forma, os resultados indicam que a DM é uma técnica promissora para modelagem da dinâmica rotacional de moléculas em membranas. / AHBA (2-Amino-N-hexadecyl benzamide) and DPH (1,6-diphenyl-1,3,5-hexatriene) molecules are fluorescent probes with particular characteristics commonly used to monitor different regions of the lipid bilayers, however, little is known about the mobility and dynamics of these probes in membranes and the main factors that influence their interactions with polar and non-polar solvents. This thesis aimed to study these probes in different environments, to extend the understanding of their structures, mobility and rotational dynamics in different solvents and in lipid bilayers. It was used the Molecular Dynamic (MD) technique to obtain the trajectories of the probes in boxes with different proportions of water and 1,4-dioxane, and also in membranes of POPC (1-palmitoyl-2- oleoy l-sn-glycerol-3 -phosphocholine) and DMPC (1,2-dimyristoyl-sn-glycerol-3-phosphocholine). With the trajectories generated, the structure, solvation and rotational dynamics of the probes were analyzed in solvent mixtures and model membranes. For simulations in solvents, the results indicate an atypical behavior of the two molecules with the decrease of the interaction with water, when decreased the proportion of 1,4-dioxane in the box. In membranes, the location and mobility of AHBA showed similar behavior for on DMPC and POPC, with the decay times obtained from the dipole rotational autocorrelation curve comparable to experimental time-resolved fluorescence anisotropy data. For the DPH in POPC, the results indicated that the probe is aligned parallel to the membrane surface and is much more free to move when compared to simulations in DMPC, where the probe is aligned parallel to the tails of the phospholipids, and had a greater restriction for their movement. The rotational correlation times of their dipole in POPC showed good agreement with those obtained experimentally. On the other hand, the results in DMPC, showed that it needs more time of simulation for comparison between the theoretical and experimental rotational correlation, because it a more compressed system. In any way, the results indicate that MD is a promising technique for modeling the rotational dynamics of molecules in membranes.

Anisotropia.

Dinâmica Molecular

Sondas Fluorescentes

Anisotropy.

Fluorescent Probes

Molecular Dynamics

Síntese de seleno- e teluro-cumarinas para estudos de emissão e supressão de fluorescência e aplicações analíticas e/ou biológicas / Synthesis of selenium- and tellurium-coumarins for fluorescence emission and supression studies and analytical and/or biological applications

Victor Fernandes Cavalcante

17 July 2017

Nos últimos anos, o desenvolvimento e a aplicação de sondas contendo átomos de calcogênio, expandiu significativamente, devido principalmente à reatividade dos elementos dessa família que são facilmente oxidados aos seus correspondentes calcogenóxidos e calcogenonas, permitindo diversas aplicações, especialmente em sistemas biológicos. A inserção de átomos pesados como os calcogênios, ao núcleo fluorofórico, leva à supressão de fluorescência, processo conhecido por \"efeito do átomo pesado\" também atribuída por Transferência Eletrônica Fotoinduzida (Photoinduced Electron Transfer). A oxidação do calcogênio ao correspondente calcogenóxido ou calcogenona inibe esse processo reestabelecendo a fluorescência. Todavia, moléculas com núcleo fluorofórico contendo, principalmente, os átomos de selênio e telúrio tem suas propriedades fotofísicas pouco investigadas, se comparado com moléculas contendo o átomo de enxofre. Neste trabalho foi tratado do desenvolvimento de metodologias de preparação de sondas contendo os átomos de selênio (II) e telúrio (II), mais especificamente, através da funcionalização da 7-hidróxi-4-metil-cumarina. Foram preparadas 6 calcogeno-cumarinas inéditas em rendimentos que variaram de 27% a 69%. Esses compostos apresentaram comportamento fluorescente condizente com o que havia sido idealizado: suas propriedades fotofísicas foram determinadas em acetonitrila, a 298 K, observando-se máximos de absorção em 290 nm e em 320 nm e máximo de emissão de fluorescência em 380 nm. Demais propriedades fotofísicas como rendimento quântico e tempo de vida do estado excitado também foram obtidas. Também foram realizados estudos com os compostos sintetizados frente a espécies oxidantes endógenas (ClO- e H2O2) permitindo inicializar estudos em sistemas celulares, observando-se que as cumarinas contendo o átomo de telúrio (II) demonstraram resultados promissores para seu uso como sondas fluorescentes. / In the last years, the development and application of chalcogen-containing dyes has expanded significantly, mainly due to the chalcogen elements reactivity that are are easily oxidized to their correspondent chalcogenides and chalcogenones, allowing several applications, especially in biological systems. The insertion of heavy atoms such as chalcogens to the fluorophoric core of the molecule leads to a fluorescence suppression, process known as \"heavy atom effect\", also attributed as Photoinduced Electron Transfer (PeT). The chalcogen oxidation to its correspondent chalcogenoxide or chalcogenone inhibts this process reestablishing the fluorescence of the molecule. However, fluorophoric molecules containing selenium and tellurium are not very investigated towards its photophysical properties if compared to their sulfur analogues. It is discussed in this this work, the development of methodologies for the preparation of probes containing selenium (II) and tellurium (II), more specifically, through the functionalization of the 7-methyl-4-hydroxi-coumarin. Six novel chalcogen-coumarins were prepared presenting yields varying from 27% to 69%. These compounds presented consistent fluorescent behavior for what it was predicted: their photophysical properties were determined observing absorption maxima at 290 nm and 320 nm and fluorescence maxima at 380 nm. Other photophysical properties such as quantum yields and excited state lifetime were also obtained. Studies with the synthetized compounds related to their behavior against endogenous oxidant species (ClO- and H2O2) were also conducted, allowing initial studies in cell systems, which demonstrated that the tellurium (II) derived coumarins presented promising results as fluorescent probes

Cumarinas

Pigmentos de Calcogênio

Sondas Fluorescentes

Chalcogen-Dyes

Coumarins

Fluorescent probes

Fluorescent and Photocaged Lipids to Probe the Ceramide-mediated Reorganization of Biological Membranes

Carter Ramirez, Daniel Marcelo

January 2013

This thesis describes the development of novel fluorescent and photocaged lipids, and their application as tools to probe the morphological effects of ceramide (Cer)-mediated membrane reorganization in supported lipid bilayers. Cer is a sphingolipid found in eukaryotic cells that plays a key role in regulating biological processes such as apoptosis, cell-to-cell communication, differentiation and some types of pathogenesis. Sphingolipid and cholesterol-rich lipid rafts in the plasma membrane are thought to be the point of origin for many of this lipid second messenger’s effects. Cer is formed in the exoplasmic leaflet of the plasma membrane via the enzymatic hydrolysis of sphingomyelin. The compositional complexity of biological membranes has prompted the adoption of simpler model systems to study the effects of Cer generation. When it is directly incorporated into model membranes, Cer segregates into highly ordered domains with physical properties that are distinct from those of the surrounding fluid environments. However, enzymatic generation of Cer induces complex and dynamic membrane heterogeneity that is difficult to interpret and reconcile with its direct incorporation. Here I describe the synthesis of 4-nitrobenzo-2-oxa-1,3-diazol-7-yl (NBD)-labelled cholesterol (Chol) and Cer analogs, and their use as probes in model membranes exhibiting liquid-disordered (Ld) and liquid-ordered (Lo) phase coexistence. The Chol probes reproduce the modest enrichment of Chol in Lo membrane domains as well as the Cer-induced displacement of cholesterol. One of the NBD Chol probes is used to provide direct visualization of Chol redistribution during enzymatic Cer generation, and assists in identifying new features as Cer-rich regions. The NBD-labelled Cer quantifies membrane order using orientational order parameter measurements derived from polarized total internal reflection fluorescence microscopy (pTIRFM) images. The probe reports on changes in membrane order upon enzymatic generation of Cer, and indicates a significant increase in the molecular order of Ld membrane regions that is consistent with the redistribution of Chol into these areas. The probe also identifies de novo Cer-rich domains as areas of particularly high molecular order. In the final project area, 6-Bromo-7-hydroxycoumarin-4-ylmethyl (Bhc)-caged Cers are shown to release Cer rapidly and efficiently upon irradiation with near-visible UV light. The caged lipids are then incorporated into supported membranes and photolyzed to release Cer with a high degree of spatial and temporal control. Controlled Cer generation is then used to drive protein-ganglioside clustering in lipid bilayers.

Lipid rafts

Ceramide

Photocages

Fluorescent probes

Model membranes

Fluorescence microscopy

Využití fluorescenčních sond pro sledování aktivity imobilizovaných fotokalyzátorů / Fluorescence probes for immobilized photocatalyst activity monitoring

Blašková, Martina

January 2015

This diploma thesis deals with the use of fluorescent probes for evaluation of photocatalytic activity of immobilized photocatalyst. To the evaluation of photocatalytic activity of TiO2 were used three different fluorescent probes – terephthalic acid, coumarin and benzoic acid, wherein was monitored the increasing intensity of fluorescence of their oxidation products – hydroxyterephthalic acid, 7-hydroxycoumarin and salicylic acid for the photochemical degradation of various fluorescent probes. To the evaluation of photocatalytic activity was used solid phase (photocatalyst) – liquid phase (probe) system and was used three sources of radiation. Fluorescence of oxidation products was monitored by the fiber spectrometer and a conventional cuvette fluorometer.