Intermolecular dark resonance energy transfer (DRET): Upgrading fluorogenic DNA sensing

The sensitivity of FRET-based sensing is usually limited by the spectral overlaps of the FRET donor and acceptor, which generate a poor signal-to-noise ratio. To overcome this limitation, a quenched donor presenting a large Stokes shift can be combined with a bright acceptor to perform Dark Resonance Energy Transfer (DRET). The consequent fluorogenic response from the acceptor considerably improves the signal-to-noise ratio. To date, DRET has mainly relied on a donor that is covalently bound to the acceptor. In this context, our aim was to develop the first intermolecular DRET pair for specific sensing of nucleic acid sequences. To this end, we designed DFK, a push-pull probe based on a fluorenyl π-platform that is strongly quenched in water. DFK was incorporated into a series of oligonucleotides and used as a DRET donor with Cy5-labeled complementary sequences. In line with our expectations, excitation of the dark donor in the double-labeled duplex switched on the far-red Cy5 emission and remained free of cross-excitation. The DRET mechanism was supported by time-resolved fluorescence measurements. This concept was then applied with binary probes, which confirmed the distance dependence of DRET as well as its potency in detecting sequences of interest with low background noise

Solvents for Carbon Dioxide Capture

Anthropogenic CO2 emissions are considered the major contributor of greenhouse gas emissions worldwide. The mitigation of this kind of CO2 emissions relies on a portfolio of alternatives where CO2 absorption appears as the nearest approach to be applied at industrial scale. Researchers have been focused on developing new formulations of solvents to make more competitive CO2 absorption as a carbon capture and storage (CCS) technology. In this sense, this chapter summarizes both the conventional solvents and the most recent investigations on this field. Chemical absorption is more suitable for a lot of industrial process due to the flue gas conditions: ambient pressure, low CO2 concentration and large volume. Therefore numerous novel solvents came up in recent years and they are further discussed in this chapter. The most recent solvents, their mechanisms and kinetics and the advantages and disadvantages are also included. Finally, physical solvents are adequate in high CO2 partial pressure applications and they are reported in the last section. Although physical absorption field is constrained to high-pressure flue gas, physical solvents provided higher performance in CO2 separation process and their characteristics are also summarized.Ministerio de Economía y Competitividad OXYSOLVENT Pro. CTM-2014-58573-RFondo Europeo de Desarrollo Regiona

Fluorene-based fluorescent markers : new insights in synthesis and applications into labeling of nucleic acids and imaging of cell membranes

Le développement de nouvelles voies synthétiques permettant l’accès à des sondes à applications biologiques connaît un intérêt accru. Les travaux de cette thèse s’inscrivent dans ce cadre. Ils portent particulièrement sur les colorants « Push-pull » qui se caractérisent par leur sensibilité aux changements de leur environnement, leur faible cytotoxicité et leur photostabilité élevée. En outre, la synthèse de ces fluorènes est très exigeante. Nos travaux ont abouti à : 1) Des approches synthétiques concises pour accéder à des composés aromatiques aminés difficiles à synthétiser, celles-ci via des systèmes Pallado-catalysés optimisés impliquant une amination sélective et une synthèse séquentielle en « one pot », 2) La synthèse d'une bibliothèque vaste de fluorènes avec la diversification des groupements accepteur et donneur. 3) Des relations structure- propriétés photophysiques. 4) La synthèse de trois colorants avancés engendrant la première sonde de fluorènes spécifique aux membranes : un outil puissant pour étudier la structure et les dynamiques biophysiques de ces membranes. Le colorant optimal surpasse les caractéristiques des sondes couramment utilisées montrant : une absorption décalée vers le rouge attenant 405 nm en diode laser, une luminosité plus élevée diminuant la concentration du colorant pour la coloration de ~ 10-15 fois, une haute photo-stabilité, une forte sensibilité aux domaines liquides des membranes des cellules. 5) La Synthèse de 4 phosphoramidites marqués et leurs incorporations dans les oligonucléotides attestant une grande sensibilité aux milieux protiques et au pH. En duplex d'ADN, le colorant est efficace pour la différenciation des bases opposées. Une application du marqueur d'ADN fluorescent l’a testé comme un donneur pour le déplacement de Stokes dans une paire de FRET émissive en combinaison avec l’accepteur Dy681. Le FRET a démontré une augmentation ratiométrique dans la région proche infrarouge avec un décalage de 300 nmExtensive research focuses on finding straightforward synthesis and prospective probes for biological applications. Push-pull dyes are of particular interest for various uses as biosensors for membranes and nucleic acids. These dyes are highly responsive to changes of their environments. Specifically, push-pull fluorenes exhibit low cytotoxicity and high photostability, but are not yet reported in the two mentioned applications. Furthermore, their synthesis is highly demanding. In this context, our work presents: 1) Step-economic and concise approaches to access challenging aminoaromatics via optimized air-stable Pd catalytic systems involving selective mono/di-amination and sequential one-pot synthesis, 2) Synthesis of a fluorene library varying the acceptor and the donor groups, 3) Structure-photophysics relationships, 4) Synthesis of three advanced dyes and concluding the first plasma membrane-specific fluorene probe that can be a powerful tool for studying the structure and biophysical dynamics of membranes. The optimal dye surpasses the features of commonly used probes showing: red-shifted absorption matching the 405 nm diode laser, higher brightness decreasing the dye concentration for staining by ~10-15 folds, high photostability, comparably strong sensitivity to liquid domains of cell membrane, and 5) Synthesis of 4 fluorene-labeled phosphoramidites and their site-specific ODN incorporations evidencing high sensitivity to protic media and pH. Labeled sequences exhibited a far-red emission with modest quantum yields in line with their strong charge transfer character. In DNA duplexes, the dye efficiently base-discriminated opposite cytidine and thymidine. A preliminary application of the DNA fluorescent marker involved testing it as a mega-Stokes shift donor in an emissive FRET pair in combination with Dy681 acceptor. The FRET demonstrated a ratiometric turn-on in NIR region with a shift of 300 n

Capteurs fluorescents à base de fluorène : nouvelles perspectives en synthèse et applications pour le marquage des acides nucléiques et en imagerie de la membrane cellulaire

Extensive research focuses on finding straightforward synthesis and prospective probes for biological applications. Push-pull dyes are of particular interest for various uses as biosensors for membranes and nucleic acids. These dyes are highly responsive to changes of their environments. Specifically, push-pull fluorenes exhibit low cytotoxicity and high photostability, but are not yet reported in the two mentioned applications. Furthermore, their synthesis is highly demanding. In this context, our work presents: 1) Step-economic and concise approaches to access challenging aminoaromatics via optimized air-stable Pd catalytic systems involving selective mono/di-amination and sequential one-pot synthesis, 2) Synthesis of a fluorene library varying the acceptor and the donor groups, 3) Structure-photophysics relationships, 4) Synthesis of three advanced dyes and concluding the first plasma membrane-specific fluorene probe that can be a powerful tool for studying the structure and biophysical dynamics of membranes. The optimal dye surpasses the features of commonly used probes showing: red-shifted absorption matching the 405 nm diode laser, higher brightness decreasing the dye concentration for staining by ~10-15 folds, high photostability, comparably strong sensitivity to liquid domains of cell membrane, and 5) Synthesis of 4 fluorene-labeled phosphoramidites and their site-specific ODN incorporations evidencing high sensitivity to protic media and pH. Labeled sequences exhibited a far-red emission with modest quantum yields in line with their strong charge transfer character. In DNA duplexes, the dye efficiently base-discriminated opposite cytidine and thymidine. A preliminary application of the DNA fluorescent marker involved testing it as a mega-Stokes shift donor in an emissive FRET pair in combination with Dy681 acceptor. The FRET demonstrated a ratiometric turn-on in NIR region with a shift of 300 nmLe développement de nouvelles voies synthétiques permettant l’accès à des sondes à applications biologiques connaît un intérêt accru. Les travaux de cette thèse s’inscrivent dans ce cadre. Ils portent particulièrement sur les colorants « Push-pull » qui se caractérisent par leur sensibilité aux changements de leur environnement, leur faible cytotoxicité et leur photostabilité élevée. En outre, la synthèse de ces fluorènes est très exigeante. Nos travaux ont abouti à : 1) Des approches synthétiques concises pour accéder à des composés aromatiques aminés difficiles à synthétiser, celles-ci via des systèmes Pallado-catalysés optimisés impliquant une amination sélective et une synthèse séquentielle en « one pot », 2) La synthèse d'une bibliothèque vaste de fluorènes avec la diversification des groupements accepteur et donneur. 3) Des relations structure- propriétés photophysiques. 4) La synthèse de trois colorants avancés engendrant la première sonde de fluorènes spécifique aux membranes : un outil puissant pour étudier la structure et les dynamiques biophysiques de ces membranes. Le colorant optimal surpasse les caractéristiques des sondes couramment utilisées montrant : une absorption décalée vers le rouge attenant 405 nm en diode laser, une luminosité plus élevée diminuant la concentration du colorant pour la coloration de ~ 10-15 fois, une haute photo-stabilité, une forte sensibilité aux domaines liquides des membranes des cellules. 5) La Synthèse de 4 phosphoramidites marqués et leurs incorporations dans les oligonucléotides attestant une grande sensibilité aux milieux protiques et au pH. En duplex d'ADN, le colorant est efficace pour la différenciation des bases opposées. Une application du marqueur d'ADN fluorescent l’a testé comme un donneur pour le déplacement de Stokes dans une paire de FRET émissive en combinaison avec l’accepteur Dy681. Le FRET a démontré une augmentation ratiométrique dans la région proche infrarouge avec un décalage de 300 n

Carbon Dioxide Chemistry, Capture and Oil Recovery

Fossil fuels still need to meet the growing demand of global economic development, yet they are often considered as one of the main sources of the CO2 release in the atmosphere. CO2, which is the primary greenhouse gas (GHG), is periodically exchanged among the land surface, ocean, and atmosphere where various creatures absorb and produce it daily. However, the balanced processes of producing and consuming the CO2 by nature are unfortunately faced by the anthropogenic release of CO2. Decreasing the emissions of these greenhouse gases is becoming more urgent. Therefore, carbon sequestration and storage (CSS) of CO2, its utilization in oil recovery, as well as its conversion into fuels and chemicals emerge as active options and potential strategies to mitigate CO2 emissions and climate change, energy crises, and challenges in the storage of energy

Rational Design of Push–Pull Fluorene Dyes: Synthesis and Structure–Photophysics Relationship

International audienceOur work surveyed experimental and theoretical investigations to construct highly emissive D–π–A (D=donor, A=acceptor) fluorenes. The synthetic routes were optimised to be concise and gram-scalable. The molecular design was first rationalised by varying the electron-withdrawing group from an aldehyde, ketotriazole or succinyl to methylenemalonitrile or benzothiadiazole. The electron-donating group was next varied from aliphatic or aromatic amines to saturated cyclic amines ranging from aziridine to azepane. Spectroscopic studies correlated with TD-DFT calculations provided the optimised structures. The selected push–pull dyes exhibited visible absorptions, significant brightness, important solvatofluorochromism, mega-Stokes shifts (>250 nm) and dramatic shifts in emission to the near-infrared. The current library includes the comprehensive characterization of 16 prospective dyes for fluorescence applications. Among them, several fluorene derivatives bearing different conjugation anchors were tested for coupling and demonstrated to preserve the photophysical responses once further bound

Remedia Sternutatoria over the Centuries: TRP Mediation

Sneezing (sternutatio) is a poorly understood polysynaptic physiologic reflex phenomenon. Sneezing has exerted a strange fascination on humans throughout history, and induced sneezing was widely used by physicians for therapeutic purposes, on the assumption that sneezing eliminates noxious factors from the body, mainly from the head. The present contribution examines the various mixtures used for inducing sneezes (remedia sternutatoria) over the centuries. The majority of the constituents of the sneeze-inducing remedies are modulators of transient receptor potential (TRP) channels. The TRP channel superfamily consists of large heterogeneous groups of channels that play numerous physiological roles such as thermosensation, chemosensation, osmosensation and mechanosensation. Sneezing is associated with the activation of the wasabi receptor, (TRPA1), typical ligand is allyl isothiocyanate and the hot chili pepper receptor, (TRPV1), typical agonist is capsaicin, in the vagal sensory nerve terminals, activated by noxious stimulants