Global ETD Search

81	A Study on the Hyperactive Antifreeze Proteins from the Insect <i>Tenebrio molitor</i> Choi, Young Eun January 2007 (has links) No description available. Anti freeze proteins Thermal Hysteresis Nanoliter osmometer function cooperativity Hyperactive antifreeze proteins TmAFP Tenebrio molitor antifreeze protein Protein conjugates Cold finger purification
82	Synthesis of conjugates of L-fucose and ortho-carborane as potential agents for boron neutron capture therapy and synthesis of 2,3-dideoxy-2,3-methanoribofuranoside glycosyl donors and a study of their use in stereocontrolled glycosylation reactions Basak, Prakriti 10 February 2003 (has links) No description available. Chemistry, Organic boron neutron capture therapy stereocontrolled glycosylation reactions
83	Multireactive PV-electrophiles for cysteine directed bioconjugation Stieger, Christian Ewald 31 May 2023 (has links) In der vorliegenden Arbeit werden drei neue Klassen von modular zugänglichen Elektrophilen für die Biokonjugation von Cystein vorgestellt. Diethynyl-phosphinate (DPs) wurden als bisreaktive Elektrophile für die cysteinselektive Markierung von Peptiden, Proteinen und Antikörpern entwickelt. In diesen Molekülen können beide elektronenarmen Dreifachbindungen unter physiologischen Bedingungen mit Thiol-Nukleophilen reagieren und die erhaltenen Konjugate sind in menschlichem Plasma und in Gegenwart großer Mengen an reduziertem Glutathion stabil. Darüber hinaus wurden DPs in der selektiven Herstellung verschiedener Protein-(Doppel)-Konjugate angewandt. Neben der klassischen Proteinmodifikation können DPs auch zur kovalenten Verbrückung der Disulfidbrücken von Antikörpern eingesetzt werden. Weiters wurde mit Hilfe von Dichtefunktionaltheorie-Berechnungen werden Ethinyl-triazolyl-phosphinate (ETP) als eine neue Klasse hochreaktiver Elektrophile für die Cystein-Biokonjugation entdeckt. Die Berechnungen zeigen, dass sowohl die elektronenziehenden als auch die π-Elektronen donierenden Eigenschaften des Triazolrings die Reaktivität erhöhen. Vor allem aber wird gezeigt, dass ETP-Elektrophile über die chemoselektive Cu(I)-katalysierte Azid-Alkin-Cycloaddition in ein azidhaltiges Molekül eingebaut werden können. Da diese Reaktion problemlos in wässrigen Puffersystemen abläuft, konnte eine Vielzahl funktioneller Elektrophile, einschließlich elektrophiler Peptide und Proteine, aus DPs erzeugt werden. Schließlich wurden Diethinylphosphinoxide als chemoselektive Reagenzien zur Disulfidvererbrückung untersucht. Insbesondere Diethinyl-Triazolyl-Phosphinoxide (DTP) sind vielversprechende Kandidaten, da sie die modulare Synthese von ETP-Elektrophilen mit den beiden reaktiven Gruppen in DPs kombinieren. Die Fähigkeit der DTP-Reagenzien, Disulfide zu verbrücken, wurde durch die Bildung mehrerer funktioneller Antikörperkonjugate gezeigt. / The present work introduces three new classes of modular accessible electrophiles for cysteine bioconjugation. Diethynyl-phosphinates (DPs) were developed as bisreactive electrophiles for the cysteine-selective modification of peptides, proteins and antibodies. Both electrophilic alkynes can react with thiol-nucleophiles under physiological conditions. The corresponding double-conjugates are stable in human plasma and in the presence of a large excess reduced glutathione. Furthermore, the general applicability of diethynyl phosphinates for cysteine selective bioconjugation was established by the generation of various protein-(double)-conjugates and their application in cell experiments. Additionally, DPs can be employed to covalently rebridge the interchain disulfides of therapeutically relevant IgG1 antibodies. Furthermore, with the help of density functional theory based calculations, ethynyl-triazolyl-phosphinates (ETP) were discovered as a new class of highly reactive electrophilic warheads for cysteine bioconjugation. According to the calculations, both the electron withdrawing as well as the π-electron donating properties of the triazole-ring enhance the reactivity of the electrophile. Most importantly, it was demonstrated that ETP electrophiles can be incorporated into a given azide containing molecule via the chemoselective CuI-catalyzed azide alkyne cycloaddition. ETP-reagents were used to obtain functional peptide-, protein- and antibody-conjugates, as well as site-specifically linked diubiquitins. Finally, diethynyl phosphine oxides were explored as chemoselective reagents for disulfide rebridging. Especially diethynyl-triazolyl-phosphine oxides (DTP) are promising candidates since they combine the modular synthesis of ETP-electrophiles with the two reactive groups present in diethynyl phosphinates. The capability of DTP-reagents to rebridged disulfides was proven by the formation several functional antibody conjugates. Biokonjugation Antikörper-Wirkstoff-Konjugate Phosphor Proteomik Bioconjugation Antibody-Drug-Conjugates Phosphorus Proteomics 547 Organische Chemie VK 8577 VX 8567 ddc:547
84	Auto-assemblages biofonctionnels à base de conjugués polymère-b-peptide / Biofunctional self-assemblies from polymer-b-peptide conjugates Drappier, Charlotte 22 November 2013 (has links) La thèse présentée décrit la préparation et l’étude d’auto-assemblages élaborés à partir de conjugués amphiphiles Tat-b-poly(triméthylène carbonate) (Tat-b-PTMC) doués de propriétés d’internalisation cellulaire conférées par le segment peptidique Tat. L’objectif principal de ces travaux était d’établir et de comprendre les liens entre la structure macromoléculaire, les caractéristiques colloïdales et l’activité biologique de ces systèmes. Les efforts de précision moléculaire et de caractérisation fournispour la synthèse des chimères Tat-b-PTMC a permis de corréler finement leurs structures chimiquesaux paramètres physico-chimiques des nanoparticules obtenues. Grâce à une approche expérimentale transverse combinant des études de biologie cellulaire et de biophysique, le mécanisme d’interaction in vitro de ces nanoparticules avec les cellules HeLa a pu être en partie élucidé. Enfin, un camouflage électrostatique pH-sensible a été mis au point pour tenter de moduler leur activité et d’augmenter leur sélectivité vis-à-vis de l’environnement tumoral. / This thesis work deals with preparation and study of cell-penetrating self-assemblies from amphiphilicpolymer-b-peptide Tat-b-poly(trimethylene carbonate) conjugates. Tat-b-PTMC chimeras withtunable hydrophilic fractions were synthesized, thoroughly characterized and self-assembled inaqueous buffer into size-tunable, highly monodisperse core-shell nanoparticles, presenting a full Tatcorona. Their physico-chemical profiles were assessed by complementary imaging (AFM, TEM) andscattering techniques (multiangle DLS, SANS) and correlated with their molecular architectures.Their transduction ability in vitro on HeLa cells and interaction mode with phospholipid membraneswere studied with a view to correlate their physico-chemical profiles with their biological properties.This interdisciplinary approach partially shed light on the interactions at play in the cellular uptakeprocess. With the ultimate goal of improving pharmacological characteristics, we finally endeavoredto develop an ON/OFF PEGylation strategy to harness the cell penetrating power of thosebiomacromolecular self-assembled systems. Chimères amphiphiles Polymère-b-peptide PTMC Peptide tat Auto-assemblage Nanoparticules biofonctionnelles Internalisation cellulaire Amphiphilic conjugates Polymer-b-peptide PTMC Tat Peptide Self-assembly Biofonctional nanoparticles Cellular uptake Cell-penetrating micelles
85	Studies On The Photo-induced DNA Cleavage Activity Of α-Amino Acid Copper Complexes Having Phenanthroline Bases Patra, Ashis Kumar 12 1900 (has links) Photo sensitizers showing visible light induced DNA cleavage activity are of current importance for medicinal applications related to photodynamic therapy (PTD) considering greater skin penetration of light near 700 nm. While organic molecules and complexes of 4d-5d metal ions are extensively studied for their DNA photo-damage properties in UV and visible light, the chemistry of 3D metal complexes showing visible light-induced DNA cleavage activity is relatively unexplored efforts have been made in this thesis work to design new ternary copper (II) complexes having a-amino acids Such copper (II) complexes with tunable coordination geometry could find potential applications in PDT. Ternary Copper (II) complexes containing L-methionine, S-methy1-L-cysteine and phenanthroline bases are prepared and characterized. They display DNA binding and visible light induced DNA cleavage activity. An enhancement of the DNA cleavage activity is observed for analogous ternary copper (II) complexes contained L-lysine with a pendant cationic amine moiety as a photo-induced DNA Cleavage activity using binary and ternary copper (II) complexes of L-arginine and phenanthroline bases. We have observed AT selective DNA binding and visible light –induced DNA cleavage activity. The crescent-shaped bis-arginine Copper (II) complex mimics the natural antiviral antibiotic netropsin. T o investigate the role of the pendant groups of the amino acids, we have explored the DNA binding and DNA cleavage activity of analogues L-glutamine and L-asparagine complexes. We have prepared ternary copper (II) complexes containing two photosensitizers, viz., L-tryptophan (L-trp) and dipyridoquininoxaline/dipyridophenazine to achieve double strand breaks forming linear DNA. Complex [Cu(L-trp)(dppz)(H2O)+ shows a stacking arrangement of the indole and dppz rings giving a separation that fits with the base pair separation of ds-DNA. Photosensitizes in these complexes approach two different complementary stands of the ds-DNA, leading to double strand breaks and formation of linear DNA. Mechanistic studies on the DNA photocleavage reactions reveal the formation of singlet oxygen(1O2)species by a type-II pathway in preference to the hydroxyl radical generation. A process leading to an efficient DNA cleavage activity on visible light irradiation. The observation of sequence selectivity and double strand DNA cleavage on red light exposure by national design of the complexes is significant considering importance of the results in the chemistry of photodynamic therapy of cancer. The results of this dissertation open up new avenues for designing and developing 3d metal-based photosensitizers with potential utility in nulcleic acid chemistry. Copper Complexes Amino Acids Organic Conjugates Transition Metal Complexes Copper Complexes - DNA Binding Copper Complexes - DNA Cleavage Copper Complexes - Crystallography Ternary Copper (II) Complexes Phenanthroline Bases Photo-induced DNA Cleavage Copper(II) Complexes Inorganic Biochemistry
86	Mise au point d'aptamères aux capacités thérapeutiques basés sur les ARN importables dans les mitochondries humaines / Design of therapeutic RNA aptamers imported into mitochodria ot human cells Dovydenko, Ilya 23 September 2015 (has links) Les défauts de génome mitochondrial provoquent des maladies neuromusculaires, pour lequel aucun traitement efficace n'a été mis au point. La plupart des mutations mitochondriales sont hétéroplasmique, ce qui signifie que l'ADN mitochondrial (ADNmt) de type sauvage et muté coexistent dans la même cellule, et le changement de proportion entre deux types d'ADNmt pourrait rétablir les fonctions mitochondriales. Le but du projet était le développement du système pour cibler l'ARN thérapeutique dans les cellules humaines vivantes. Au cours de ma thèse j'ai synthétisé une série de nouveaux ARN anti-réplicatifs contenant modifications chimiques pour augmenter leur stabilité dans la cellule, et mis au point la nouvelle méthode de synthèse chimique des molécules d'ARN contenant cholestérol fixé par l'intermédiaire d'un pont biodégradable. Ces ARN étaient capable de pénétrer dans les cellules humains, d'être adressées dans les mitochondries et de diminuer la proportion d' ADNmt muté. / Defects in mitochondrial genome cause neuromuscular diseases, for which no efficient therapy has been developed. Since most mitochondrial mutations are heteroplasmic, wild type and mutated mitochondrial DNA (mtDNA) coexist in the same cell, and the shift in proportion between two mtDNA types could restore mitochondrial functions. The aim of the project was development of carrier-free system for targeting the therapeutic mitochondrially importable RNA into living human cells. During my PhD study, I have synthesized a set of new anti-replicative RNAs containing various chemical modifications, aiming to increase their stability in the cell, and developed a new method for the chemical synthesis of RNA molecules containing cholesterol attached through a biodegradable bridge. Cholesterol containing antireplicative RNAs were characterised by efficient cellular uptake, partial colocalisation with mitochondria and ability to decrease the proportion of mutant mtDNA. ADN mitochondrial ADNmt ARN anti-réplicatif Thérapie génique Cell delivery Antireplicative RNA Cholesterol containing RNA conjugates Mitochondrial drug delivery Mitochondrial diseases Modified oligonucleotides MtDNA Heteroplasmy RNA import 571.6 572.8
87	Characterization of therapeutic proteins by capillary electrophoresis (CE) coupled to mass spectrometry (MS) / Caractérisation de protéines thérapeutiques par électrophorèse capillaire (CE) couplée à la spectrométrie de masse (MS) Said, Nassur 18 September 2017 (has links) Les anticorps monoclonaux (mAbs) sont des glycoprotéines complexes possédant de nombreuses micro-hétérogénéités qui peuvent influencer leur efficacité dans l’organisme. Il est par conséquent nécessaire de développer des méthodes analytiques robustes, sensibles et spécifiques pour les caractériser avec la plus grande précision. L’objectif de cette thèse a été de développer des méthodes analytiques permettant la caractérisation fine et à différents niveaux d’un anticorps monoclonal, le cetuximab, ainsi qu’un anticorps monoclonal conjugués à un principe actif, le brentuximab vedotin, sur des couplages direct ou indirect de l’électrophorèse capillaire et la spectrométrie de masse. Dans une première partie, une approche middle-up protéomique du cetuximab a été réalisé sur le couplage indirect CZE-UV/MALDI-MS afin de séparer et caractériser les variants de charges du fragment F/2 et F(ab)’2 ainsi que la caractérisation top-down des fragments Fc/2. Ensuite une nouvelle stratégie indirecte CZE-UV/nanoESI-MS a été développée pour permettre la caractérisation fine de ce mAbs partiellement digéré. Enfin un couplage direct par CESI-MS a été développé pour permettre l’analyse rapide et précise du cetuximab middle-up. Dans une deuxième partie, la combinaison d’analyse de mAbs d’intact, middle-up et bottom-up protéomique a été réalisée sur le couplage CZE-UV/nanoESI-MS et CESI-MS. Cela a permis la caractérisation à différent niveau du brentuximab vedotin. Cette méthodologie a permis l’analyse du DAR, l’identification de fragments conjugués, la caractérisation simultanée de la séquence complète de l’anticorps, d’un grand nombre de modifications post-traductionnelles, la caractérisation des peptides conjugués ainsi que l’identification d’ions diagnostiques du principe actif. / Monoclonal antibodies (mAbs) are highly complex glycoproteins having a lot of micro-heterogeneities which can influence their effectiveness. As a consequence, it is necessary to develop robust analytical methods, sensitive and specific to characterize them with high accuracy. The purpose of this thesis was to develop analytical methods allowing the multi-level characterization of monoclonal antibody (cetuximab), and antibody drug conjugates (brentuximab vedotin), using on-online or off-line capillary electrophoresis – mass spectrometry coupling. In the first section, a middle-up proteomic approach of cetuximab was carried out using Off-line CZE-UV/MALDI-MS coupling to separate and to characterize Fc/2 and F(ab)’2 charge variants. A top-down characterization of Fc/2 fragments was also employed. Then a new strategy off-line CZE-UV/nanoESI-MS was used to allow the characterization of this partially digest mAbs. Finally, an online coupling by CESI-MS was developed to allow the fast and accurate analysis of middle-up cetuximab. In a second part, the combination of intact, middle-up and bottom-up proteomic carried out on CZE-UV/nanoESI-MS and CESI coupling allowed the most exhaustive characterization of brentuximab vedotin. This methodology allowed the analyze of DAR, the identification of fragments drug conjugates, the simultaneous characterization of the complete structure of antibody, a significant number of post-translational modifications, all peptides drug conjugates and the identification of diagnostic ions. Electrophorèse capillaire Spectrométrie de masse Anticorps monoclonaux Glycosylations Modification post-traductionnelles Capillary electrophoresis Mass spectrometry Monoclonal antibodies Glycosylation Post-translational modifications Antibodies drug conjugates 543
88	Bile Acid based Supramolecular Gels, Soft Hybrid Materials and their Applications Maity, Mitasree January 2016 (has links) (PDF) Chapter 1. Supramolecular Gels and their Applications Supramolecular gels are viscoelastic materials composed of a solid like three dimensional fibrillary network that is embedded in a liquid. Supramolecular gels are derived from low molecular weight compounds (typically MW < 3000). In the 1990s, the investigations on gels were mainly focused on designing new gelator molecules. However, during the last decade, research focus shifted towards designing functional gels and their applications. As a result of extensive work in this area, gels have been found to have varied applications in the templated synthesis of inorganic nanomaterials, hybrid materials, light harvesting systems, as responsive system and sensors, and also in drug delivery, tissue engineering etc. This chapter gives an introduction to supramolecular hydrogels/organogels and relevant bile acid chemistry touching upon the gelation properties of the bile acid derivatives. Diverse applications of the supramolecular gels are also illustrated with several examples. Scheme 1. Various applications of functional supramolecular gels Chapter 2. Bile Acid derived novel Hydrogelators Part 1. Hydrogelation of Bile acid protected Amino acids and Hybrid Materials Hydrogels from low molecular weight molecules have significant importance in biomedical applications. In this chapter, we report injectable hydrogel formation from bile acid conjugates of various amino acids. Hydrogel formation was found to be dependent on multiple factors such as bile acid backbone structure, linkage between the bile acid and the amino acid, pH etc. Single crystal structures of lithocholyl phenylalanine, lithocholyl-glycine, lithocholyl-L valine and lithocholyl-L alanine were also determined. Finally, the hydrogel frameworks were utilized to produce hybrid materials with Gold and ZnO nanoparticles. Scheme 2. (a) Crystal structure of LC-LF-OH gelator molecule, (b) photograph of gel, (c) SEM and (d) AFM image of LC-LF-OH xerogel Part 2. Hydrogelation of bile acid-dipeptide conjugates and in situ synthesis of silver and gold nanoparticles in the hydrogel matrix Fabricating supramolecular hydrogels with embedded metal nanostructures are important for the design of novel hybrid nanocomposite materials for diverse applications such as bio sensing and chemo sensing platforms, catalytic and antibacterial functional materials etc. Supramolecular self-assembly of bile acid-dipeptide conjugates have led to the formation of new supramolecular hydrogels. Gelation of these molecules depends strongly on the hydrophobic character of the bile acids. Ag+ and Au3+ salts were incorporated in the hydrogels, and photo reduction and chemical reduction led to the in situ generation of Ag and Au NPs in these supramolecular hydrogels without the addition of any external stabilizing agent. The color, size and shape of silver nanoparticles formed by photo reduction depended on the amino acid residue on the side chain. Furthermore, the hydrogel-Ag nanocomposite was tested for its antimicrobial activity. Scheme 3. Bile acid based dipeptide hydrogelators and soft hybrid materials Chapter 3. Sonogels of bile salts of In(III): use in the formation of self-templated indium sulfide nanostructures In this chapter, facile hydrogel formation by Indium(III) cholate and deoxy cholate are reported. When In(III) solution was added to aqueous solutions of sodium cholate and sodium deoxy cholate and sonicated, the mixtures formed gels. The gels thus obtained were translucent/turbid and thermos irreversible. Rheological measurements showed that all of them could be classified as viscoelastic soft solids. Scanning electron microscopy and atomic force microscopy showed typical entangled three dimensional fibrous networks. The In-Ch hydrogel were further used to prepare nanostructured In2S3 in which the cholate units possibly acted as a surfactant to confine the growth of the Nano flakes. Scheme 4. In-Ch hydrogel (Photograph and SEM image of In-Ch gel) Chapter 4. Palladium-Hydrogel Nanocomposite for C-C Coupling Reactions Supported metallic nanoparticles are important composite materials owing to their enormous potential for applications in various fields. This chapter describes the in situ formation of palladium nanoparticles in a calcium-cholate (Ca-Ch) hydrogel by reduction with sodium cyan borohydride. The hydrogel matrix appeared to assist the controlled growth as well as stabilization of palladium nanoparticles. The palladium nanoparticle/Ca-Ch hydrogel hybrid was characterized by scanning and transmission electron microscopy, atomic force microscopy, X-ray diffraction, and energy-dispersive X-ray spectroscopy. Furthermore, PdNP/Ca-Ch hybrid xerogel was shown to act as an active catalyst for Suzuki reaction under aqueous aerobic conditions, up to 4 cycles. This PdNP/Ca-Ch xerogel retained its catalytic activities on storage for several months. Scheme 5. Palladium-hydrogel nanocomposite for C-C coupling reactions in water Chapter 5. Sensitization of Terbium/Europium in self-assembled cholate hydrogel: An approach towards the detection of amine vapours "Luminescent" lanthanides have intrinsic low molar absorptivity, although this problem can be addressed by complexing the lanthanide ion with suitable chelating ligands which improve the luminescence properties drastically. However the design of such systems often involves careful planning and laborious synthetic steps. It is therefore desirable to have a simpler way to sensitize lanthanides with high efficiency. It was observed in our group that trivalent lanthanides formed hydrogels on the addition of sodium cholate. This chapter describes the discovery of the several biphenyl derivatives (such as 4-biphenylcarbaxaldehyde, 4-acetylbiphenyl) for sensitization of Tb(III) and Eu(III) in lanthanide hydrogels. Sensitization of Tb(III) and Eu(III) were observed by doping was characterized by scanning and transmission electron microscopy, atomic force microscopy, X-ray diffraction, and energy-dispersive X-ray spectroscopy. Furthermore, PdNP/Ca-Ch hybrid xerogel was shown to act as an active catalyst for Suzuki reaction under aqueous aerobic conditions, up to 4 cycles. This PdNP/Ca-Ch xerogel retained its catalytic activities on storage for several months. Scheme 6. Schematic representation of the sensitization process (the arrangement of themolecules in the gel fiber is arbitrary)(For figures pl refer the abstract pdf file) Supramolecular Gels Soft Hybrid Materials Bile Acids Gelators Bile Acid Hydrogelators Sonogels Supramolelcular Hydrogelation Bile Acid Supramolecular Gels Inorganic Nanomaterials Supramolecular Hydrogels Supramolecular Organogels Bile Acid-Amino Acid Conjugates Indium Sulfide Nanostructures Palladium-Hydrogel Nanocomposite Silver and Gold Nanoparticles Organic Chemistry
89	Chemistry Of Ferrocene Conjugates Showing DNA Cleavage And Photocytotoxic Activity Maity, Basudev 07 1900 (has links) (PDF) Ferrocene is an important molecule in the field of chemical biology due to its stability, unique redox property and significant lipophilicity for better cellular delivery. The medicinal importance of ferrocene is well recognized after its successful incorporation into breast cancer drug tamoxifen and antimalarial drug chloroquin. Designing ferrocene conjugated transition metal complexes is an interesting area of research in the field of photodynamic therapy, a new modality of light activated cancer treatment. The objective of the present thesis work is to develop photoactive ferrocene conjugates showing DNA photocleavage and photocytotoxic activity. We have synthesized the ferrocene conjugated imidazophenanthroline derivative which exhibits visible light induced DNA photocleavage activity and photocytotoxicity in HeLa cell line. The corresponding phenyl analogue is found to be inactive. Polypyridyl platinum(II) complexes of ferrocenyl as well as phenyl moiety are prepared and studied their interactions with calf thymus DNA. The cytotoxicity of the complexes enhance significantly upon irradiation of UV-A light of 365 nm. To enhance the photodynamic potential and to understand the role of organometallic ferrocenyl moiety, ferrocene conjugated terpyridyl copper(II) complexes having planar phenanthroline bases are prepared. The interaction of these complexes with duplex DNA and their photo-induced DNA cleavage and anticancer activity in HeLa cancer cells are studied. The complexes are able to generate ROS in the presence of visible light which causes DNA damage as well as cell death. The importance of ferrocenyl moiety is evidenced from the less activity of the corresponding phenyl analogues complex. We have prepared copper(II) complexes of ferrocenyl methyl dipicolylamine ligand to understand the role of terpyridyl moiety. These complexes lacking any conjugation between the copper(II) and the ferrocenyl moiety are found to be less active compared to the terpyridyl conjugated system. The copper(II) complexes are found to show undesirable dark cytotoxicity in the presence of cellular thiols like GSH. To overcome the dark toxicity problem and to understand the mechanistic aspects of DNA photocleavage and photocytotoxicity, a series of binary ferrocene conjugated terpyridyl complexes of Fe(II), Co(II), Cu(II) and Zn(II) are prepared and their DNA photocleavage and anticancer activity studied. The zinc(II) complex having redox-active ferrocenyl moiety and redox-inactive zinc(II) center exhibits significant PDT effect with low dark toxicity compared to its copper(II) analogue. The ferrocenyl moiety plays an important role towards showing photocytotoxic activity since its phenyl analogue is inactive in nature. Finally, the present thesis work opens up a new strategy for designing and developing new ferrocene based metal complexes as novel photosensitizers for PDT applications. Ferrocene DNA Cleavage Photocytotoxicity Biochemistry Ferrocene Conjugates DNA Photocleavage Terpyridyl Copper(II) Complexes Platinum(II) Complexes Ferrocenyl Terpyridine Complexes Copper(II) Dipyridophenazine Complex Toxicology
90	Recherche sur les précurseurs du 3-sulfanylhexanol des vins de Sauvignon blanc / Research on 3-sulfanylhexanol precursors of Sauvignon blanc wines Bocker, Caroline 15 December 2014 (has links) La mise au point de techniques de fractionnement des moûts de Sauvignon blanc par chromatographie de partage centrifuge et par chromatographie Flash, a permis de mettre en évidence la présence de deux « nouvelles » formes précurseurs du 3SH (le S-3-(hexan-1-al)-glutathion et l'acide S-3-glutathionyl-hydroxyhexanesulfonique). L’ensemble de ces résultats a permis de confirmer la contribution majeure des S-conjugués au potentiel en 3SH des moûts. Le S-3-(hexan-1-ol)-L-cystéine, le S-3-(hexan-1-ol)-glutathion ainsi que les deux nouvelles formes identifiées, permettent d’expliquer près de 65% du 3SH libéré dans les vins. Par ailleurs, nous avons montré que l’ensemble des formes précurseurs appartenait à la même voie d’assimilation de la levure et que le S-3-(hexan-1-ol)-L-cystéine est un intermédiaire indispensable à la biotransformation des S-conjugués au glutathion, précurseurs du 3-sulfanylhexanol. De plus, le pourcentage de biotransformation des différents S-conjugués en 3SH semble directement lié à leur position dans le flux métabolique. / The development of fractionation techniques in Sauvignon Blanc musts such as centrifugal partition chromatography and flash chromatography, permitted to identify two precursor forms of 3-sulfanylhexanol : the S-3-(hexan-1-al)-glutathione, and the S-3-glutathionyl-hydroxy hexanesulfonic acid. These results confirmed the major contribution of S-conjugates in the potential liberation of 3-sulfanylhexanol in musts. The two newly identified forms along with S-3-(hexan-1-ol)-L-cysteine and S-3-(hexan-1-ol)-glutathione, explain up to 65% of the total release of 3-sulfanylhexanol. Futhermore, we showed that all precursor forms belonged to the same assimilation pathway of yeast and the S-3-(hexan-1-ol)-L-cysteine is an essential intermediate in the metabolism of S-glutathione conjugates, which is a precursor of 3-sulfanylhexanol . Finally, the biotransformation percentage of different S-conjugates of 3-sulfanylhexanol seems directly related to their position in the metabolic flow. Sauvignon blanc Précurseurs d’arômes S-conjugués Biotransformation 3-sulfanylhexanol Thiols volatils Chromatographie Flash Chromatographie de partage centrifuge Sauvignon blanc Flavor precursors S-conjugates Biotransformation 3-sulfanylhexanol Volatile thiols Flash chromatography Centrifugal Partition Chromatography

Search results