Global ETD Search

281	Novel Trisubstituted Arylidene Oxindoles with Potent Anti-Apoptotic Properties Repasky, Paul J. 11 July 2011 (has links) No description available. Biochemistry Biology Chemistry Molecular Biology Molecular Chemistry Organic Chemistry organic chemistry oxindole benzylidene arylidene caspase caspase inhibitor indole small molecule apoptosis DNA ladder
282	Molecular Pharmacology and Preclinical Studies of Novel Small-molecule Targeted Agents for The Treatment of Hepatocellular Carcinoma Omar, Hany Ahmed Mostafa Mohamed 16 December 2010 (has links) No description available. Biochemistry Molecular Biology Pharmacology hepatocellular carcinoma OSU-A9 Akt NF-kB indole-3-carbinol TRAIL FTY720 OSU-2S sphingosine 1-phosphate receptor protein kinase C delta,
283	A Computational Study of Palladium (II) bis(NHC) Complexes and a Computational/Experimental Study of Gold (I) bisADC Complexes Utilizing Non-Covalent Interaction for Catalysis Tiemann, Matthew Austin 07 1900 (has links) Carbene ligands over these years have become a heavily utilizes and effective ligand for catalysis. The diamino carbene class of ligands are slightly less understood. The effects of bis(carbene) ligand structures of palladium (II) catalysts were investigated using the ETS-NOCV method. The results showed that the amount of π-backbonding played a major role in the rate of the reaction for these NHC complexes. The amount of pi acceptance from the ligand increased in correlation to the length of the methylene linkage in the ligand back bone resulting in increased catalytic activity. The ETS-NOCV method was used to determine the deformation densities that had a contribution to this interaction based on visual interpretation. The percent contribution of pi interactions provided a linear correlation to the natural log of the initial reaction rate, indicating that π-backbonding plays a crucial role in the overall catalytic activity of the palladium complexes. Gold (I) bis acyclic diamino carbenes (ADCs) were investigated for the possibility to be strong hydrogen bond catalysts. The ligand motif of the gold (I) bisADCs were found to be analogous thiourea compounds. Based on NBO analysis there were some improvements to hydrogen bond donicity in comparison to thioureas with the same functional group. The complexes were analyzed for hydrogen bond interactions and polarizations interactions between simple nitroolefin substrate and the catalyst using ETS-NOCV. Results showed that the compounds can form a stable hydrogen bonding system and activate the substrate. This capability is tunable by changing the electron withdrawing properties of the ligase motif, providing the idea that gold (I) bisADCs have potential to be good hydrogen bond catalysts. New thiourea-like gold (I) catalysts utilizing the acyclic diamino carbene motif that were hypothesized were synthesized using a one pot synthesis approach utilizing a metal templated synthesis method. The synthesis, characterization, and application prove these complexes with their cationic centers and bisADCs ligand motif can be utilized for Friedel-Crafts alkylation of indoles, resulting in the production of three new compounds to literature. This research also provided a new application for this specific ligand class and further proved the robustness of ADC ligands. acyclic diamino carbenes N-heterocyclic carbene palladium gold ETS-NOCV NBO BisADC hydrogen bonding donicity Catalysis Thiourea π-backbonding Friedel-Crafts alkylation indole nitroolefin Chemistry, Inorganic
284	I. Isolation and Characterization of Bioactive Compounds From Suriname and Madagascar flora. II. A Synthetic Approach to Lucilactaene Adou, Eba 30 January 2006 (has links) As part of an International Cooperative Biodiversity Group (ICBG), extracts of plants from Suriname and Madagascar were bioassayed for cytotoxicity and antimalarial activity. Six cytotoxic extracts and one potential antimalarial were selected for fractionation, and yielded a number of bioactive compounds which were characterized by spectroscopy methods. Craspidospermum verticillatum (Apocynaceae) yielded four known indole alkoids. Casimirella sp (Icacinaceae) gave three new and five known diterpenoids. Pentopetia androsaemifolia (Apocynaceae) afforded one new and three known cardenolide glycosides. Physalis angulata (Solanaceae) yielded seven known physalins. Roupellina boivinnii (Apocynaceae) yielded four known and three new cardenolide glycosides, and three known cucurbitacins were isolated from Octolepis aff. dioica (Thymelaeaceae). In addition to these structural studies, a synthetic approach to lucilactaene, a cell cycle inhibitor was developed. / Ph. D. Lucilactaene Anticancer agents Cytotoxicity assay Indole alkaloids p53 Tumor suppressor Gene Physalins Cardenolide glycosides Diterpenoids Cucurbitacins Cell cycle Cell cycle inhibitor
285	Pseudomonas spp. Isolated from the Soybean Nodule Interior Promote Soybean Growth upon Field Amendment Doyle, Connor Patrick 31 August 2022 (has links) Diazotrophic microbes reside in soybean nodules; however, other non-nitrogen fixing bacteria are a part of the interior nodule microbiome. Results from a previous greenhouse study show that a novel species of Pseudomonas associates with soybean nodules as a plant-growth promoting rhizobacteria (PGPR). This study observes the soybean growth promoting potential of Pseudomonas spp. in a field setting. Additionally, this study observed differences in soybean growth promotion based on amending the plant with isolated strains or a mixed culture of the species' strains. Two cultivars of soybean (Asgrow AG46X6 and Pioneer P48A60X) were either amended with isolated strains of the novel Pseudomonas spp. (referred to as PAMW1 and BUMW2 in this study), a mix of the two strains, or an uninoculated control. The study recorded measurements to observe growth, yield, and nitrogen fixation differences. The study uses two-way factorial ANOVAs and non-parametric, multivariate analyses to determine differences in growth promotion among samples. Soybean amended with PAMW1 has greater shoot mass, biomass, and height than other treatments. Through nonmetric multidimensional scaling (NMS), samples amended with a mixed culture or PAMW1 may be different regarding growth promotion relative to the non-amended samples. Univariate results support the hypothesis that the novel Pseudomonas spp. benefit soybean in a field setting. However, it is inconclusive whether a mixed culture amendment of multiple strains alters the overall growth promotion of soybean compared to samples amended with isolated strains. / Master of Science / Soil hosts a relatively abundant and diverse community of microorganisms. Moreover, the area of soil that interacts closely with plant roots and their associated exudates, called the rhizosphere, has a significantly greater microbial abundance than surrounding bulk soil. Interactions between microbes and the plant often promote plant growth because of secondary metabolites produced by these beneficial microbes. One particular bacterial species, belonging to the Pseudomonas genus, was discovered and extracted from the soybean nodule interior. Nitrogen-fixing bacteria predominantly reside in the soybean nodule, yet this microorganism cannot fix nitrogen. Although trace amounts of non-nitrogen-fixing bacteria reside in the soybean nodule, this novel species has a relatively high abundance. This study determines the benefits of this species in the soybean nodule. Following positive results in a greenhouse study, this field experiment observes variance in soybean growth and productivity based on their received bacterial amendment. For this study, two soybean cultivars were either amended with an isolated strain of this species, a mix of the two strains, or left uninoculated to serve as a control. Numerous recorded measurements serve as indices of soybean growth and productivity. The results suggest that this novel Pseudomonas species benefits the plant by significantly improving biomass. With further research, this species can potentially serve as an environmentally sensitive and sustainable alternative to fertilizers through its ability to promote soybean growth. Pseudomonas spp. Soybean Growth Bradyrhizobium spp. Nodule Sterilization Bacterial Extraction Nitrogen Fixation Phosphorus Solubilization Indole-3-Acetic Acid (IAA) Siderophore Analysis of Vari
286	Réactivité cupro-catalysée des systèmes mono, di et triiodés porteurs d'une fonction acide carboxylique ou dérivée : applications à la synthèse de nouveaux hétérocycles. / Copper-catalysed reactive systems mono, di and tri-iodo compound carrying a carboxylic acid or derivatives : applications to the synthesis of new heterocycles Bahlaouan, Zineb 04 July 2011 (has links) Les hétérocycles oxygénés, azotés et soufrés sont des motifs présents dans de nombreux produits naturels possédant des activités biologiques intéressantes. Plusieurs publications décrivant la synthèse de ces hétérocycles en particulier oxygénés et azotés reposent sur l’utilisation des métaux de transition en tant que catalyseur.Dans notre cas, nous nous sommes intéressés dans un premier temps à la synthèse cupro-catalysée des pyrano[3’,4’:4,5]imidazo[1,2-a]pyridin-1-ones selon une réaction tandem impliquant un couplage et une hétérocyclisation, à partir des dérivés de l’acide 3-iodo-, 3,6- ou (3,8) diiodoimidazo[1,2-a]pyridine-2-carboxylique et d’alcynes vrais en présence de sels de cuivre (I) dans le DMF. Les réactions développées ne nécessitent aucune utilisation de métaux de transition plus coûteux comme les complexes au palladium par exemple. / Heterocycles of oxygen, nitrogen and sulfur are patterns found in many natural products possessing interesting biological activities. Several researchers describe the synthesis of oxygen and nitrogen based heterocycles using transition metals as catalyst.In the present study, we focused initially on the copper-catalyzed synthesis of pyrano[3',4':4,5]imidazo[1,2-a]pyridin-1-ones by a tandem coupling-heterocyclisation reaction from derivatives of 3-iodo-, 3,6- or (3,8) diiodoimidazo[1,2-a]pyridine-2-carboxylic acid and terminal alkynes in the presence of copper (I) salts as catalyst in DMF. This procedure does not require the use of any expensive transition metal complexes like palladium and supplement any additives. The extension of this methodology to 2,3,5-triiodobenzoic acid allowed the regioselective synthesis of new isocoumarins substituted in positions 3, 5 and 7. Regioselective reactivity of iodine atoms in position 5 and 7 has been studied by palladium coupling reactions and nucleophilic substitution to broad its synthesis to a wide variety of new substituted isocoumarins. Allènyltributylétains Couplage Imidazo[1,2-a]pyridinones Isocoumarines Stéréosélectivité Pyrano[3,4-b]indole-1(9H)-one 1,1-dioxyde-benzothiazin-3-ones Copper (I) Catalyst Imidazo[1,2-a]pyridinones Regioselectivity Stereoselectivity Isocoumarins Allenyltributyltin Sulfonamides N-Arylation Pyrano[3,4-b]indole-1(9H)-one Benzothiazin-3-one-1,1-dioxyde
287	New Supramolecular Ion Sensing Probes And Their Application In The Detection Of Environmentally Relevant Ions Namita Kumari, * 07 1900 (has links) (PDF) The thesis entitled “New Supramolecular Ion Sensing Probes and their Application in the Detection of Environmentally Relevant Ions” deals with the design and synthesis of several small molecular probes which can specifically sense environmentally relevant ions of (anion or cation) particularly in aqueous or biological medium. The probes have been designed using four different molecular entities which include anthraquinone, oxidized bis-indolyl system, pyrene and rhodamine. The probes afford naked eye detection of a particular ion in the aqueous medium. This work has been divided into six chapters. Chapter 1. Introduction The first chapter gives a brief idea of ion sensor. It provides the description of various approaches used for designing molecular sensors. The chapter further presents an overview of the four different dyes (anthraquinone, oxidized-bis-indole, pyrene and rhodamine) used for designing probes in this work. The properties of these probes, their advantages and disadvantages to use as a signaling subunit have been discussed. This chapter also describes the use of micellar medium for solubilizing different organic dyes in water. Chapter 2. Colorimetric Probes based on Anthraimidazolediones for Selective Sensing of Fluoride and Cyanide ion via Intramolecular Charge Transfer. The second chapter describes the design and synthesis of four different probes based on anthra [1, 2-d] imidazole-6, 11-dione. The anthraquinone part of each molecule has an acceptor moiety whereas substituted nitrogen linked aromatic unit forms the donor site. Each probe acted as strong colorimetric sensor for fluoride and cyanide ion detection and exhibited intramolecular charge transfer (ICT) band which showed significant red-shifts after addition of either the F¯ or CN¯ ion. One of the probes 2 showed selective colorimetric sensing for both cyanide and fluoride ions. In organic medium 2 showed selective color change with fluoride and cyanide, whereas in aqueous organic medium it showed a selective ratiometric response towards cyanide ion. The effect of anionic charge (on the donor moiety) on ICT has been discussed. Among the various donor moieties, the donor site having negative charges on them was found to disperse greater electron density on them. Figure 1. Molecular structures of the sensors Chapter 3 deals with chemodosimetric detection of cyanide ion in water using various oxidized bis-indole based compounds. Chapter 3A. A Chemodosimetric Probe based on a Conjugated and oxidized Bis¬ indolyl System for Selective Naked Eye Sensing of Cyanide ion in Water. The chapter 3A describes the design and synthesis of a new water-soluble bis-indolyl based probe, 5 which possesses two –COOH groups. This probe specifically reacted with the CN¯ ion in pure water at ambient temperature and produced a remarkable change in color from red to colorless. The mechanism of this process was investigated by NMR (1H, 13C and DEPT-135) spectroscopy, mass spectrometry and kinetic studies. The mechanism investigation showed that the cyanide ion reacts with the probe and removes the conjugation of the bis-indolyl moiety of the probe with that of the 4-substituted aromatic ring which renders the probe colorless. Taken together a plausible mechanism of the reaction was presented which showed to operate via a Michael type adduct formation under ambient conditions of pH and temperature in water. The probe gave a detection limit of 0.38 ppm for detection of cyanide ion in water. Figure 2. Molecular structure of the probe 5. Chapter 3B. Micelle Assisted ppb level Detection of Cyanide ion in Water by Chemodosimetry and Visual detection of the Endogenous Cyanide. The chapter 3B deals with the synthesis of a bis-indole based colorimetric probe 6. The probe showed selective detection of the cyanide ion in water at ppb level and a visible detection of endogenous cyanide from cassava (a major staple food in the developing world) by chemodosimetry. The cyanide ion binds with the probe 6 in a chemodosimetric fashion and follows pseudo first-order kinetics in water under appropriate conditions. It showed a highly sensitive detection of the cyanide ion in water with a detection limit of 0.33 ppm. The use of the micellar medium improved the detection limit drastically and a ppb level detection limit was achieved. The probe also showed the detection of the endogenously bound cyanide in cassava both visually and by spectrophotometer. Figure 3. Molecular structure of the probe 6. Chapter 3C. Ratiometric Cyanide ion probe in Water and for the detection of the Endogenously bound cyanide. Chapter 3C presents the synthesis of two new bis-indolyl (7 and 8) based probes for colorimetric detection of cyanide ion in pure water. Compound 8 showed a ratiometric response with cyanide in water and a visual detection of the endogenously bound cyanide ion in cassava. Using compound 8 the selective detection of the cyanide ion in water was achieved with a detection limit of ~ 17 ppb which is almost 13 times lower than the permitted limit as specified by EPA, United States. 7; R = H 8; R = -(OCH2CH2)3CH3 Figure 4. Molecular structures of the probes 1 and 2. Chapter 4 deals with the colorimetric and ratiometric detection of the Cu2+and Hg2+ions using different small synthetic molecular probes. Chapter 4A. Colorimetric Sensors for Ratiometric Detection of Copper and Mercury ions in Biological media and below ppm level in Water. The chapter 4A deals with the synthesis of two novel colorimetric probes (9, 10) using bispicolyl unit as the binding moiety and anthraimidazolediones and bis-indolyl system as a signaling sub-unit. Using the two sensors, Cu2+ion can be detected below the permitted limit (1.3 ppm) in both drinking water and at physiological pH 7.4. Sensor 9 can detect both Cu2+and Hg2+ in water with very low detection limit. It showed specific binding with Cu2+ at physiological pH 7.4 and in presence of serum albumins. Chemosensor 10 can be used for the specific detection of both Cu2+and Hg2in water as well as for the contamination in microorganisms. Figure 5. Molecular structure of the sensors 9 and 10. Chapter 4B. A New Molecular Probe for the Selective Sensing of Cu2+ and Hg2+ ions in Micellar Media and in Live ells.This chapter describes a synthesis of a novel bispicolyl based sensor 11 which can detect Cu2+ ion specifically in water medium and both Cu2+ and Hg2+ ions selectivelyin Brij-58 micellar medium. In micellar medium both the ions can be detected in the ppb level. Using fluorescence spectroscopy these two metal ions can be discriminated.The probe is also be useful for checking metal ion contamination in cellular samples. Figure 6. Molecular structure of the sensor 11. Chapter 4C. Rhodamine based Sensors for Cu2+ and Hg2+ ions in Water and in Biological media. The chapter 4C presents the synthesis and the sensing properties of the three positional isomers of the pyridine end of the rhodamine-pyridine compounds (12-14). The three isomers only differ in the position of nitrogen of the pyridine moiety. Sensor 12, which contains the pyridine nitrogen at the ortho-position showed selective sensing toward Cu2+ ion in both pure water and in buffered physiological media of pH 7.4. It gave a detection limit of ~13 ppb which is 100 times lesser than the EPA permitted limit. The other two sensors 13 and 14, which possessed the pyridine ends with the nitrogen atom at the meta- and the para- positions respectively showed the selective sensing of Hg2+ ion in water and did not show any interaction with the Cu2+ ion. Probes 2 and 3 showed ‘turn-on’ detection of Hg2+ ion both in the UV-vis and the fluorescence emission spectroscopy. Compound 2 and 3 showed a detection limit of ~ 9 and 4 ppb respectively. The NMR titration showed the change in color was due to the opening of the spirolactam ring of the rhodamine. The sensors can also be used for the detection of Cu2+ and Hg2+ ion in real life water samples and in the live cells. Figure 7. Molecular structure of the sensors 12, 13 and 14. Chapter 5. Ratiometric and ppb level Detection of Toxic Transition Metal ions using a Single Probe in Micellar media. This chapter describes the selective sensing of multiple ions using a single probe 15. The probe incorporates pyrene and pyridine as signaling and interacting moiety respectively. The sensor showed different responses towards different metal ions just by varying the medium of detection. In organic solvent (acetonitrile), the probe showed selective detection of Hg2+ ion. In water the fluorescence quenching was observed with three metal ions, Cu2+, Hg2+ and Ni2+. Further just by varying the surface charge of different micellar media, the probe showed selective interaction with Hg2+ ion in neutral micelles (Brij-58). However, in anionic micellar medium (SDS), the probe showed selective changes with both Cu2+ and Ni2+ in the UV-vis spectroscopy. The discrimination between these two ions was achieved by emission spectroscopy, where it showed selective quenching only with Cu2+. Thus using a single probe all the three metal ions Cu2+, Hg2+ and Ni2+ can be detected and discriminated just by varying the surface charge of the micellar medium. Figure 8. Molecular structure of the sensors 15. Chapter 6. Highly sensitive Rhodamine Based Dual Probes for the Visual detection of F¯ and Hg2+ ions in Water. This chapter deals with the design and synthesis of two new rhodamine based probes (16-17) which act as dual probes for the ppb level selective detection of Hg2+ and F¯ ions in water and at physiological pH 7.4. The two probes were synthesized by coupling tert-butyldiphenylsilyl (TBDPS) protected forms of 4-hydroxybenzaldehyde and 2, 4- dihydroxy benzaldehyde with rhodamine hydrazone. The F¯ ion detection is based on the desilylation of the probe, whereas the spirolactam ring opening leads to the detection of Hg2+ ion. The two probes gave turn-on detection of both Hg2+ and F¯ ion selectively in aqueous medium with the detection limit well below the EPA permitted limits. The probes showed detection of both the ions by dual mode with visibly different color and fluorescence under UV-lamp. The F¯ ion interacts with the silyl bond of probe and the cleavage results into yellow color whereas; the addition of Hg2+ ion to the probe solution opened the spirolactam ring and resulted into appearance of pink color. Figure 9. Molecular structure of the probes 16 and 17. (For structural formula pl see the abstract file) Ion Sensors Ion Detection Molecular Sensors Flouride Ions - Sensing Cyanide Ions - Sensing Supramolecular Ion Sensing Probes Environmentally Relevant Ions Cyanide Ions - Detection Copper Ions - Detection Mercury Ions - Detection Molecular Probe Anthraquinone Oxidized-bis-indole Pyrene Rhodamine Chemodosimetric Probe Organic Chemistry
288	Novel cambinol analogues as potential anticancer agents : an improved understanding of sirtuin isoform selectivity Medda, Federico January 2011 (has links) SIRT1 and SIRT2 are two NAD⁺-dependent deacetylases which negatively modulate the activity of p53, a protein which is involved in cell cycle arrest, senescence and apoptosis following genotoxic stress. Part I of the thesis describes the exploration of the chemical space around a reported unselective and modest inhibitor of SIRT1 and SIRT2 with the aim of improving the selectivity and potency of the inhibitor against the two isoforms. Particular emphasis is placed upon understanding the mode of binding of the novel analogues within the active site of the enzymes. Chapter 1 reviews the physiological roles of class III NAD⁺-dependent deacetylases, also known as sirtuins. In particular, the application of SIRT1 and SIRT2 inhibitors as potential anticancer agents is described. Amongst these, only cambinol and the tenovins showed in vivo activity in a mouse xenograft model. Previously only one analogue of cambinol had been reported in the literature. Chapter 2 describes the development of a small collection of novel cambinol analogues (First Generation Studies). The role played by different substituents at the phenyl group and at the N-1 of the thiouracil core is discussed. Along with the synthesis and structure activity relationship (SAR) associated with the core structure, in-cell experiments intended to confirm the activity of the most active compounds are reported. Chapter 3 provides a rationalisation for the SAR discussed in Chapter 2. Based on computational molecular modelling studies (GOLD), the activity of the most potent and selective SIRT2 inhibitors is explained. Two series of novel cambinol analogues were designed (Second and Third Generation Analogues) in order to assess further the proposed binding mode. Chapter 4 focuses on the development of the “Second Generation” analogues, characterised by the presence of lipophilic substituents at the sulfur atom and at the N-3 position of the thiouracil core. The synthesis, biological evaluation and SAR are discussed in detail. Chapter 5 reports the development of the “Third Generation” analogues, characterised by either a benzyl group or para-alkoxy-substituted benzyl group at the N-1 position of cambinol. Once again, the synthesis, biological evaluation and SAR data are presented. An improved understanding of the mode of binding of the novel compounds is proposed based on molecular dynamics (MD) studies. Indole-based alkaloids, such as Vincristine and Vinblastine, are well known for their anticancer activity. Recently, the anticancer activity of members of the calycanthaceous family of alkaloids has been discovered. Part II of the thesis focuses on model studies aimed at developing the total synthesis of one of these compounds, perophoramidine. Chapter 7 provides an overview of the calycanthaceous alkaloid family of natural products, including their biological properties. The structural features of perophoramidine, along with the previously reported synthetic studies are outlined. Chapter 8 describes the synthesis of an advanced intermediate in the total synthesis of dehaloperophoramidine, a structural analogue of perophoramidine Problems encountered, optimisation studies and the synthesis of a re-designed intermediate are also reported in this chapter. 547.7
289	Síntese total diastereosseletiva da (±)-trans-triquentrina A / Diastereoselective total synthesis of (±)-trans-trikentrin A Craveiro, Marcus Vinicius 11 March 2009 (has links) Esta tese descreve uma nova abordagem para a síntese de ciclopenta[g]indóis baseada na reação de contração de anel mediada por trinitrato de tálio (TTN) de uma olefina tricíclica, que contém uma unidade indólica. Foi possível encontrar condições reacionais em que o sal de tálio(III) mostrou-se quimiosseletivo, reagindo com a ligação dupla do anel cicloexênico, sem oxidar a ligação C2-C3 do anel indólico. Utilizando-se a reação acima, pôde-se alcançar a primeira síntese diastereosseletiva da (±)-trans-triquentrina A, que é um alcalóide indólico isolado de uma esponja marinha, em 20 etapas e com rendimento global de 2%. A etapa chave foi uma reação de contração de anel mediada por TTN em CH3CN com redução in situ promovida por NaBH4. Nestas condições o anel trans-1,3-dimetilciclopentânico da molécula alvo foi alcançado com excelente diastereosseletividade. Tentativas de hidrogenação assimétrica do (E)-etil-3-(1-benzil-4-etil-1H-indol-7-il)-but-2- enoato utilizando-se catalisadores de irído foram realizadas, visando a síntese da (+)-trans-triquentrina A. / This thesis presents a new approach toward the synthesis of cyclopenta[g]indoles using a ring contraction reaction mediated by thallium trinitrate (TTN) of a tricyclic olefin, bearing an indol unit. We could find reactional conditions where the thallium(III) salt was chemoselective, reacting on the cyclohexenic double bond without formation of C2-C3 indolic oxidation byproducts. Using the reaction above, we could accomplish the first diastereoselective total synthesis of (±)-trans-trikentrin A, which is an indolic alkaloid isolated from a marine sponge, in 20 steps and 2% of global yield. The key-step was a ring contraction reaction mediated by TTN in CH3CN with in situ reduction promoted by NaBH4. Under this condition the trans-1,3- dimethylcyclopentane moiety of the target molecule was achieved with good diastereoselectivity. The asymmetric hydrogenation of (E)-ethyl-3-(1-benzyl-4-ethyl-1H-indole-7-yl)-but-2- enoate was attempted using iridium catalysts were performed, aiming the synthesis of (+)-trans-trikentrin A. (±)-trans-trikentrin A (±)-trans-triquentrina A Ciclopenta[g]indóis Contração de anel Cyclopenta[g]indole Organic reactions Organic synthesis Oxidação (Química) Produtos naturais Reações orgânicas Ring contraction Síntese orgânica Tálio(III) Thallium(III)
290	Alcalóides de Psychotria : fotorregulação e propriedades antioxidantes e antimutagênicas Fragoso, Variluska January 2007 (has links) Espécies de Psychotria encontradas no sul do Brasil produzem alcalóides do tipo monoterpeno indólicos, alguns deles com interessantes atividades biológicas e oriundos de novas rotas biossintéticas. P. leiocarpa Cham. & Schlecht. acumula N, b-D-glicopiranosilvincosamida (GPV), o primeiro alcalóide N-glicosilado desta classe a ser descrito. O extrato contendo GPV apresenta atividade analgésica inespecífica e, na planta, sua biossíntese é regulada pelo desenvolvimento e por luz. P. umbellata Vell., por sua vez, produz psicolatina, que apresenta alto potencial farmacológico, pois apresenta atividade analgésica do tipo opióide, ansiolítica e antipsicótica, interagindo com receptores de diversos sistemas de neurotransmissores no sistema nervoso central. Além disso, psicolatina é um eficiente agente redutor de peróxidos e quencher de oxigênio singlet in vitro. Os objetivos do presente trabalho foram estudar a fotorregulação de GPV em plântulas de P. leiocarpa, assim como avaliar os efeitos antioxidantes e antimutagênicos in vivo do extrato foliar bruto de P. umbellata e de psicolatina purificada, utilizando a levedura Saccharomyces cerevisiae. Essas duas últimas substâncias também foram avaliadas quanto à capacidade antioxidante contra o radical hidroxila in vitro. Em ensaios de transição luz-escuro realizados com plântulas assépticas de P. leiocarpa, o acúmulo de GPV mostrou ser responsivo a alterações na condição luminosa de cultivo. O papel negativo do escuro contínuo na biossíntese de GPV foi comprovado pela redução dos níveis deste alcalóide em plântulas cultivadas na luz e transferidas para o escuro. Por outro lado, quando plântulas cultivadas no escuro foram expostas à luz, os níveis de GPVaumentaram, indicando o caráter promotor da luz na produção de GPV. Os efeitos das transições foram mais evidentes em plântulas cultivadas em meio sem sacarose do que em plântulas cultivadas com suprimento exógeno de carboidratos. A biossíntese de GPV é regulada por diferentes faixas de luz. As regiões do azul e do vermelho-extremo aumentaram os teores de GPV. A luz vermelha não afetou de forma significativa o teor de GPV. Os resultados revelam um padrão típico de VLFRs (Very Low Fluence Responses), possivelmente envolvendo ação de PhyA em conjunto com criptocromo.Tanto o extrato bruto foliar de P. umbellata quanto psicolatina apresentaram efeito antioxidante in vivo, reduzindo a inibição do crescimento de Saccharomyces cerevisiae sob estresse oxidativo induzido por peróxido de hidrogênio e paraquat. O extrato e o alcalóide purificado também apresentaram ótima atividade antioxidante in vitro, protegendo contra o ataque do radical hidroxila. Os índices de mutagênese induzida por peróxido de hidrogêncio foram significativamente reduzidos quando as células de S. cerevisiae foram co-cultivadas na presença tanto do extrato quanto de psicolatina. / Species of Psychotria founded in southern Brazil produce a set of novel monoterpene indole alkaloids (MIAs), several of which have interesting biological activities and originate from new metabolic pathways. P. leiocarpa Cham. & Schlecht. accumulates N, b-D-glucopyranosylvincosamide (GPV), the first N-glycosylated MIA described. Leaf extracts containing GPV display nonspecific analgesic activity and, in planta, its biosynthesis is regulated by development and light. P. umbellata Vell., in turn, produces psychollatine which has significant pharmacological potential, since it yields opioid-like analgesic, anxiolytic and antipsychotic activities, interacting with receptors of different neurotransmitter systems in the central nervous system. In addition, psychollatine is an efficient peroxide reducing agent and a singlet oxygen chemical quencher in vitro. This work aimed at studying the photoregulation of GPV in P. leiocarpa seedlings, as well as at investigating the antimutagenic and antioxidant in vivo effects of the crude foliar extract of P. umbellata and purified psychollatine using the yeast Saccharomyces cerevisiae. These last substances were also evaluated for their in vitro antioxidant properties against hydroxyl radicals.In light-dark transition assays with aseptic P. leiocarpa seedlings, GPV accumulation showed to be responsive to changes in light condition. The negative role of continuous dark on GPV biosynthesis was shown by reduction of the alkaloid contents when light growing seedlings were transferred to dark. On the other hand, dark growing seedlings increased GPV contents after light exposure, suggesting a positive light regulation of GPV production. Theseresults were more evident in seedlings cultivated in media without sucrose than in seedlings cultivated with carbohydrate supplementation. GPV biosynthesys is also regulated by different light qualities. Light in the blue and far-red regions increased GPV accumulation, whereas red ligh had no significant influence on GPV yield. These results are in agreement with the profile of VLFRs (Very Low Fluence Responses), mediated by PhyA with coaction of cryptochrome. Both the crude foliar extract of P. umbellata and psychollatine showed in vivo antioxidant effects by reducing the growth inhibition of Saccharomyces cerevisiae under hydrogen peroxide- and paraquat-induced oxidative stress. The extract and the purified alkaloid also showed strong in vitro antioxidant activity against hydroxyl radicals. The levels of hydrogen peroxide-induced mutagenicity were significantly reduced when S. cerevisiae cells were cocultivated with leaf crude extract or psychollatine. Psychotria leiocarpa Psychotria umbellata Saccharomyces cerevisiae Atividade antioxidante Biotecnologia vegetal Alcalóides Psychotria umbellata Vell. Monoterpene indole alkaloids N b-D-Glucopyranosylvincosamide Psychollatine Photoregulation VLFR Saccharomyces cerevisiae Antioxidant activity Antimutagenic activity

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