Modifications To The Benzophenoxazine Architecture: Synthesis And Characterization

Martinez, Vincent

07 May 2016

Nile red and Nile blue are intensely colored fluorescent dyes from the benzophenoxazine family. Modification of the donor amine with varying alkyl substituents was achieved with the principle aim being to investigate differences, both optical and physical, between dye scaffolds outfitted with secondary amines versus tertiary amines. These changes to the dyes’ architectural framework gave holistic effects to the bulk molecule by modulating hydrophobicity, optical properties, and protein binding constants to human serum albumin.

benzophenoxazine

dye

Nile red

Nile blue

synthesis

Water-soluble benzophenoxazine dyes: syntheses, derivatization and photophysical studies

Jose, Jiney

25 April 2007

A set of three benzophenoxazine dyes, two completely soluble and one partially soluble in aqueous media, has been prepared and their spectroscopic properties examined. These dyes can be used as either donor or acceptor in synthesis of through-bond energy transfer cassettes. Structural modifications prevented aggregation in water and improved their fluorescence properties in water. Their absorption and emission were studied in both organic and aqueous media. Two of the three dyes have superior quantum yields in aqueous media as compared to other reported dyes. Improved quantum yield makes these dyes attractive candidates for biological studies in aqueous media. We have also prepared alkynes and iodo derivatives of benzophenoxazines, which can be used for synthesis of water-soluble, through-bond, energy transfer cassettes. Alkynes were prepared via Sonogashira coupling.

fluorescent dyes

benzophenoxazine

Nile Red

Quantum yield

Synthèse in situ de fluorophores organiques : formation de liaisons covalentes par déclenchement enzymatique et applications en biodétection / In situ synthesis of organic fluorophore and covalent assembly principle triggering by enzymatic events and biodetection applications

Debieu, Sylvain

18 October 2017

L'imagerie de fluorescence s'est particulièrement développée au fil de ces dernières décennies notamment pour l'exploration des systèmes biologiques. De nombreux développements portant à la fois sur les instruments d'analyse et les agents de contraste (sondes) ont été entrepris pour améliorer cette technique de bioanalyse. Mes travaux de thèse avaient pour but d'explorer diverses plateformes moléculaires pro-fluorescentes pouvant générer, sous l'effet d'un stimulus biologique / chimique, un fluorophore organique. Cette approche de synthèse chimique in-situ met en jeu des réactions domino caractérisées par la formation et la rupture de liaisons covalentes. Ce processus devrait ouvrir la voie à des sondes fluorogéniques possédant des rapports signal sur bruit élevés. Cette étude avait aussi pour but d'étudier la synthèse in-situ de fluorophores déclenchée par plusieurs stimuli afin de concevoir des portes logiques moléculaires de type "AND", dans un but de détection "multi-analytes". Pour établir la preuve de principe, la formation d'un coeur 7-hydroxy-2-iminocoumarine fluorescent déclenchée par divers couples d'enzymes (hydrolase / nitroréductase) a été étudiée. L'ensemble de ces travaux sont décrits dans le chapitre I de ce manuscrit. Par la suite et comme présenté dans les chapitres II et III, notre intérêt s'est porté sur le développement des plateformes fluorogéniques libérant des fluorophores ayant des maxima d'absorption / émission décalés vers le rouge en comparaison de ceux des coumarines. Une première réalisation a concerné la conception d'un précurseur "cagé" agissant comme sonde à peptidases ou nitroréductase par libération d'un dérivé pyronine. Des travaux portant sur la formation in-situ d'une benzophénoxazine sont également en cours et sont présentés au chapitre III. Un dernier aspect de ce travail a concerné la chimie d'une nouvelle famille de fluorophores proche-IR (les hybrides dihydroxanthène-hémicyanine) dont la formation in-situ pourra être envisagée pour des applications in-vivo. / Fluorescence imaging is a growing field of biology over the past decades. Intensive works mainly focused on instrumental developments and chemistry of contrast agents (probes), were already done to improve such bioanalytical technique. The main goal of this Ph. D. thesis was to explore various fluorogenic molecular platforms responsive to various (bio)chemical stimuli and capable of releasing organic fluorophores in the biological medium to analyze. This approach named "in-situsynthesis" is based on domino reactions belonging to the repertoire of "covalent chemistry", triggered by the target (bio)analyte. This kind of process should provide advanced fluorogenic probes with high signal-to-noise ratio. Another purpose of this work was to investigate some dualtriggering events to access to fluorogenic molecules acting as "AND-type" molecular logic gates for dual-analytes detection applications. To establish this approach, the formation of highly fluorescent7-hydroxy-2-iminocoumarin scaffolds triggered by several enzyme pairs (hydrolase and nitroreductase) was studied and now described in the first chapter of this manuscript. The second part of this work, described in chapters II and III, was devoted to the development of original "caged" precursors able to release fluorophores whose absorption / emission maxima are dramatically redshifted compared to those of coumarin derivatives. The first achievement concerned the detection of protease or nitroreductase activities through in-situ formation of a pyronin scaffold. Further works, currently in progress, are focused on "caged" precursors whose the dual reaction with a model protease should lead to the release of a benzophenoxazine derivative. Finally, some chemistry aspects related to an emerging and promising class of NIR fluorophores (dihydroxanthene-hemicyanine hybrids) are presented and the opportunity to form them in biological media, upon enzymatic triggering is also discussed.

Activation enzymatique

Benzophénoxazine

Coumarine

Détection "multi-analytes"

Fluorescence

Hybride DHX-hémicyanine

Porte logique moléculaire

Pro-fluorescence

Pyronine

Sonde fluorogénique

Synthèse in-situ

Benzophenoxazine

Coumarin

Dihydroxanthene-hemicyanine hybrid,

Enzymatic activation

Fluorescence

Fluorogenic probe

In-situ synthesis

Molecular logic gate

Multi-analytes detection

Pro-fluorescence

Pyronin

547