Global ETD Search

1	DEVELOPMENT AND CHARACTERIZATION OF L-TYROSINE BASED POLYURETHANES FOR TISSUE ENGINEERING APPLICATIONS Sarkar, Debanjan 02 October 2007 (has links) No description available. Engineering, Chemical L-tyrosine Polyurethane structure property tissue engineering biomaterial
2	Biocompatibility Analysis and Biomedical Device Development Using Novel L-Tyrosine Based Polymers Shah, Parth Nimish 09 June 2009 (has links) No description available. Biomedical Research Chemical Engineering Polymers Biomaterials Microparticles Electrospinning Biocompatibility Cytotoxicity Cell Adhesion Blends L-Tyrosine
3	The Impact of Reductions in Uterine Perfusion Pressure on Uterine Arterial Reactivity in Gravid Rats II and L-tyrosine Polyphosphate Nanoparticles as a Potential In Vivo Gene Delivery Device Reho, John Joseph 16 April 2012 (has links) No description available. Biomedical Engineering Uterine artery preeclampsia pregnancy gene delivery nanoparticles L-tyrosine polyphosphate
4	Receptor-Mediated Targeting to Enhance Therapeutic Efficacy of Chemotherapeutic Agents Shah, Kush 06 February 2014 (has links) No description available. Biomedical Engineering Biomedical Research Drug Delivery Drug Targeting Hyaluronan L-tyrosine Polyphosphate Nanoparticles Resveratrol MOMIPP
5	Electrospinning of L-Tyrosine Polyurethane Scaffolds for Gene Delivery Qaqish, Walid P. January 2014 (has links) No description available. Biomedical Engineering Biomedical Research Polymers
6	Etude de la production d'un antioxydant le 3,4-DHPA par Sulfolobus solfataricus, archée hyperthermophile par des approches multidisciplinaires. Comte, Alexia 12 July 2013 (has links) L'objectif est de produire un antioxydant puissant, l'acide 3,4-dihydroxyphénylacétique (3,4-DHPA) à partir de la L-tyrosine chez l'archée hyperthermophile et acidophile, Sulfolobus solfataricus 98/2. Les microorganismes extrêmophiles possèdent des enzymes particulièrement résistantes et intéressantes pour l'industrie.Des cultures ont donc été réalisées en fermenteur contrôlé dans 4 conditions : (i) en présence de glucose avec ou sans L-tyrosine, (ii) en présence de phénol avec ou sans L-tyrosine. Il a été montré que le 3,4-DHPA est synthétisé seulement en présence de phénol et de L-tyrosine. Les gènes codant pour les enzymes impliquées dans cette voie métabolique et potentiellement responsables de la synthèse du 3,4-DHPA ont été identifiés par homologie de séquence chez cette archée.Des études transcriptomiques et protéomiques ont donc été initiées pour confirmer ces hypothèses et tenter de caractériser les enzymes impliquées dans ces voies métaboliques. Plusieurs toluène-4-monooxygénases (T4MO) et une catéchol 2,3-dioxygénase, impliquées dans le métabolisme du phénol et potentiellement dans la voie de dégradation de la L-tyrosine ont été identifiées. Leur production est soumise à une régulation transcriptionnelle dépendant de la présence de phénol. L'analyse des régions génomiques correspondantes a permis de mettre en évidence une région consensus qui pourrait être impliquée dans la fixation d'un facteur de transcription lors de la régulation par le phénol. Ces différentes études ont permis, de déterminer d'une part dans quelles conditions le 3,4-DHPA est synthétisé, d'autre part d'identifier les enzymes qui interviendraient dans le métabolisme de la L–tyrosine. / The aim is to produce a powerful antioxidant, 3,4-dihydroxyphenylacetic acid (3,4-DHPA) from L-tyrosine in the hyperthermophilic and acidophilus archaea, Sulfolobus solfataricus 98/2. Extremophiles microorganisms have resistant enzymes and interesting for industry. Cultures have been carried out in controlled bioreactor four conditions: (i) in the presence of glucose with or without L-tyrosine, (ii) in the presence of phenol with or without L-tyrosine. It has been shown that 3,4-DHPA is synthesized only in the presence of phenol and L-tyrosine. The genes encoding enzymes involved in the metabolic and potentially responsible for the synthesis of 3,4-DHPA pathway have been identified by sequence homology in S. solfataricus.Des transcriptomic and proteomic studies have therefore been initiated to confirm these hypothesis and attempt to characterize the enzymes involved in these pathways. Several toluene-4-monooxygenase (T4MO) and catechol 2,3-dioxygenase involved in the metabolism of phenol and potentially in the degradation pathway of L-tyrosine were identified. Their production is subjected to a dependent transcriptional regulation of the presence of phenol. The analysis of the corresponding genomic regions has highlighted a consensus region that could be involved in the binding of a transcription factor in the regulation of phenol. These studies helped to determine the one hand the conditions under which 3,4-DHPA is synthesized, secondly to identify enzymes that intervene in the metabolism of L-tyrosine. L-tyrosine Acide 3,4-dihydroxyphénylacétique Acide 4-hydroxyphénylacétique Sulfolobus solfataricus 98/2 Toluène -4-monooxygénases Catéchol 2,3dioxygénase L-tyrosine 3,4-dihydroxyphenylacetic acid 4-hydroxyphenylacetic acid Sulfolobus solfataricus 98/2 Toluene -4-monooxygenases Catechol 2,3dioxygenase 579
7	Etude biosynthétique des dérivés polykétides PKS-NRPS de type pyrrocidine chez Acremonium zeae / Biosynthetic study of pyrrocidine related compounds, polyketides PKS-NRPS in Acremonium zeae Ear, Alexandre 13 October 2014 (has links) Les composés de type pyrrocidine sont des polykétides PKS-NRPS possédant des activités biologiques intéressantes comme antifongique ou antibiotique. La synthèse totale de ces composés est un réél challenge comme il est constitué de 10 centres chiraux et d'un macrocycle complexe. L'étude de leur biosynthèse pourrait être d'une aide importante afin de comprendre le mécanisme de formation de cette structure spéciale, et en particulier l'étape de la cyclisation complexe.Le précurseur linéaire de ces polykétides étant composé par une chaine nonakétide (partie PKS) et d'une L-tyrosine (partie NRPS), des hypothèses sur leur biosynthèse ont été émises dans cette thèse. Des expériences d'incorporation de précurseurs marqués ou non vont être réalisées dans différents milieux de culture en vue d'obtenir des informations sur cette biosynthèse, et plus précisément le passage du précurseur linéaire vers la structure polycyclique complexe. En parallèle, des supplémentations des cultures d'A. zeae avec des dérivés de la tyrosine seront faites dans le but d'obtenir des analogues pouvant avoir des activités biologiques nouvelles ou meilleures que les pyrrocidines. / Pyrrocidine and its related compounds are PKS-NRPS polyketides having biological interests such as antifungal or antibiotic activities. The total synthesis of these entities has been challenging since the family of hirsutellone is composed by 10 chiral centers and a complex macrocycle. Studying the biosynthesis of these compounds can be an asset for the comprehension of this special molecular structure, especially for the complex cyclization step. Knowing that the linear precursor of these molecules is constituted by a nonaketide chain (PKS part) and by an L-tyrosine (NRPS part), hypotheses about the biosynthesis of hirsutellone-related compounds have been developed in this thesis. Some incorporation experiments of labeled or unlabeled compounds has been done in different culture media in order to have more information about this biosynthesis, in particular the conversion of the linear precursor into this complex polycyclic structure. In parallel, the supplementation of L-tyrosine derivatives will help us to get some analogs of pyrrocidine which can have new or better activities than natural products. Biosynthèse Pyrrocidine PKS-NRPS L-Tyrosine doublement marquée Polykétide fongique Marquage isotopique Poliketides PKS-NRPS Pyrrocidine 547
8	Biodegradable Nanoparticles for Use as an Inhalable Antimicrobial and as a Receptor Targeted Delivery Device Ditto, Andrew James 09 August 2010 (has links) No description available. Biomedical Research nanoparticles drug delivery antimicrobial targeted targeting folic acid L-tyrosine degradable sustained release silver SCC LTP
9	Estudo de espalhamento Raman em cristais de L-tirosina hidroclorídrica submetidos a altas pressões / Raman scattering study on hydrochloric L-tyrosine crystals subjected to high pressures Santos, Carlos Alberto Andrade Serra dos 28 February 2017 (has links) Submitted by Rosivalda Pereira (mrs.pereira@ufma.br) on 2017-07-21T18:04:23Z No. of bitstreams: 1 CarlosSantos.pdf: 7721249 bytes, checksum: ee220ca2d9a3d156b8c575c28854ffea (MD5) / Made available in DSpace on 2017-07-21T18:04:23Z (GMT). No. of bitstreams: 1 CarlosSantos.pdf: 7721249 bytes, checksum: ee220ca2d9a3d156b8c575c28854ffea (MD5) Previous issue date: 2017-02-28 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Fundação de Amparo à Pesquisa e ao Desenvolvimento Científico e Tecnológico do Maranhão (FAPEMA) / In this work L-tyrosine hydrochloride crystals (LTHCl) were prepared by slow evaporation technique at room temperature and characterization by X-ray diffraction, thermogravimetry, differential thermal analysis, differential scanning calorimetry and Raman scattering at room temperature and under high pressures. After four weeks, it was possible obtain various crystals of good crystalline quality. The solution was acidic with pH 1.2. From the XRD pattern of the material and the Rietveld analysis, it was found that at room temperature LTHCl crystallizes in monoclinic space group (P21) with two molecules per unit cell. The refinement quality parameters were satisfactory with Rp = 6.29 %, Rwp = 8.49 % and S = 1.34. The thermal analysis showed that the material undergoes fusion around 231°C and presented no thermal event that features phase transition before the fusion. Furthermore, thermal analysis showed that the crystal is stable up to 220°C. Calculations using DFT (Functional Density Theory) were performed to identify the vibrational modes in the LTHCl crystal. Raman scattering measurements as a function of pressure (0,0-7,2 GPa) showed as major changes: the occurrence of an inversion of intensity between a strong band (attributed to torsion of L-tyrosine molecule) and an imperceptible band (at ambient pressure) for pressures above 2,5 GPa and a discontinuity of dω/dP associated with the strong band between 1.0 and 1.5 GPa, suggesting a conformational transition above 1.5 GPa stabilizing the structure up to 7,2 GPa. In the region of the internal modes few changes were observed, with the downshift of the COOH and NH3+ units as one of them. Finally, the decompression reinforced that the conformational phase transition is reversible, demonstrating a great capacity of this material to regenerate its original structure without presenting hysteresis. / Neste trabalho foram sintetizados cristais de L-tirosina hidroclorídrica (LTHCl) pela técnica de evaporação lenta do solvente à temperatura ambiente e realizadas medidas de caracterização por difração de raios X, análise térmica diferencial, análise termogravimétrica, calorimetria exploratória diferencial e espalhamento Raman à temperatura ambiente e a altas pressões neste sal de aminoácido. Após quatro semanas foram obtidos vários cristais, que apresentaram, visualmente, boa qualidade cristalina. A solução de crescimento era ácida com pH 1,2. Através do difratograma do material e da análise pelo método de Rietveld, constatouse que à temperatura ambiente a LTHCl cristaliza-se numa estrutura monoclínica (P21) com duas moléculas por célula unitária. Os parâmetros de qualidade do refinamento foram satisfatórios, com Rp = 6,29 %, Rwp = 8,49 % e S = 1,34. As análises térmicas mostraram que o material sofre fusão por volta de 231°C e que não há evento térmico que caracterize uma transição de fase antes da fusão. Além disso, as análises térmicas mostraram que o cristal é estável até 220°C. Cálculos usando a Teoria do Funcional de Densidade (DFT, density funcional theory) foram realizados para a identificação dos modos vibracionais no cristal de LTHCl. As medidas de espalhamento Raman em função da pressão (0,0-7,2 GPa) apresentaram como principais mudanças: A ocorrência de uma inversão de intensidade entre uma forte banda (associada à torção da molécula de L-tirosina) e uma banda imperceptível (à pressão ambiente) para pressões acima de 2,5 GPa, bem como a descontinuidade em dω/dP da forte banda entre 1,0 e 1,5 GPa, sugerindo uma mudança conformacional indicada pela torção da molécula de L-tirosina para pressões acima de 1,5 GPa deixando a estrutura estável até 7,2. Na região dos modos internos foram observadas poucas mudanças, tendo o downshift das unidades COOH e NH3 + como uma delas. Finalmente, a descompressão reforçou que a transição de fase conformacional é reversível, demonstrando uma grande capacidade desse material para se regenerar, sem apresentar histerese. Espectroscopia Raman Cristais de Aminoácidos Teoria do Funcional de Densidade Pressão hidrostática Temperatura L-tirosina hidroclorídrica Raman spectroscopy Amino acid crystals Functional Density Theory Hydrostatic pressure Temperature L-tyrosine hydrochloride Cristalografia
10	Biomimetic Studies On Anti-Thyroid Drugs And Thyroid Hormone Synthesis Roy, Gouriprasanna 05 1900 (has links) Thyroxine (T4), the main secretory hormone of the thyroid gland, is produced on thyroglobulin by thyroid peroxidase (TPO)/hydrogen peroxide/iodide system. The synthesis of T4 by TPO involves two independent steps: iodination of tyrosine and phenolic coupling of the resulting iodotyrosine residues. The prohormone T4 is then converted to its biologically active form T3 by a selenocysteine-containing iodothyronine deiodinase (ID-I), which is present in highest amounts in liver, kidney, thyroid and pituitary. The 5'-deiodination catalyzed by ID-I is a ping-pong, bisubstrate reaction in which the selenol (or selenolate) group of the enzyme (E-SeH or E-Se-) first reacts with thyroxine (T4) to form a selenenyl iodide (E-SeI) intermediate. Subsequent reaction of the selenenyl iodide with an as yet unidentified intracellular cofactor completes the catalytic cycle and regenerates the selenol. Although the deiodination reactions are essential for the function of thyroid gland, the activation of thyroid stimulating hormone (TSH) receptor by auto-antibodies leads to an overproduction of thyroid hormones. In addition, these antibodies stimulate ID-I and probably other deiodinases to produce relatively more amount of T3. Figure 1. Synthesis of thyroid hormones by heme-containing Thyroid Peroxidase(TPO)(Refer PDF File) As these antibodies are not under pituitary feedback control system, there is no negative influence on the thyroid activity and, therefore, the uncontrolled production of thyroid hormones leads to a condition called “hyperthyroidism”. Under these conditions, the overproduction of T4 and T3 can be controlled by specific inhibitors, which either block the thyroid hormone biosynthesis or reduce the conversion of T4 to T3. A unique class of such inhibitors is the thiourea drugs, methimazole (1, MMI), 6-n-propyl-2-thiouracil (3, PTU), and 6-methyl-2-thiouracil (5, MTU). Although these compounds are the most commonly employed drugs in the treatment of hyperthyroidism, the detailed mechanism of their action is still not clear. According to the initially proposed mechanism, these drugs may divert oxidized iodides away from thyroglobulin by forming stable electron donor-acceptor complexes with diiodine, which can effectively reduce the thyroid hormone biosynthesis. It has also been proposed that these drugs may block the thyroid hormone synthesis by coordinating to the metal center of thyroid peroxidase (TPO). After the discovery that the ID-I is responsible for the activation of thyroxine, it has been reported that PTU, but not MMI, reacts with the selenenyl iodide intermediate (E-SeI) of ID-I to form a selenenyl sulfide as a dead end product, thereby blocking the conversion of T4 to T3 during the monodeiodination reaction. The mechanism of anti-thyroid activity is further complicated by the fact that the gold-containing drugs such as gold thioglucose (GTG) inhibit the deiodinase activity by reacting with the selenol group of the native enzyme. Recently, the selenium analogues 2 (MSeI), 4 (PSeU) and 6 (MSeU) attracted considerable attention because these compounds are expected to be more nucleophilic than their sulfur analogues and the formation of an –Se–Se– bond may occur more readily than the formation of an –Se–S– bond with the ID-I enzyme. However, the data derived from the inhibition of TPO by selenium compounds show that these compounds may inhibit the TPO activity by a different mechanism. Therefore, further studies are required to understand the mechanism by which the selenium compounds exert their inhibitory action. Our initial attempts to isolate 2 were unsuccessful and the final stable compound in the synthesis was characterized to be the diselenide (8). In view of the current interest in anti-thyroid drugs and their mechanism, we extended our approach to the synthesis and biological activities of a number of sulfur and selenium derivatives bearing the methimazole pharmacophore. The thesis consists of five chapters. The first chapter gives a general introduction to thyroid hormone synthesis and anti-thyroid drugs. In this chapter, the biosynthesis of thyroid hormones, structure and function of heme peroxidases, activation of thyroid hormones by iodothyronine deiodinases are discussed. This chapter also gives a brief introduction to some common problems associated with the thyroid gland, with a particular emphasis on hyperthyroidism. The structure and activity of some commonly used anti-thyroid drugs and the role of selenium in thyroid are discussed. The literature references related to this work are provided at the end of the chapter. The second chapter deals with the synthesis and characterization of the selenium analogue (MSeI) of anti-thyroid drug methimazole and a series of organoselenium compounds bearing N-methylimidazole pharmacophore are described. The clinically employed anti-thyroid drug, methimazole (MMI), exists predominantly in its thione form, which is responsible for its anti-thyroidal activity. The selenium analogue MSeI, on the other hand, is not stable in air and spontaneously oxidizes to the corresponding diselenide (MSeIox). Experimental and theoretical studies on MSeI suggest that this compound exists in a zwitterionic form in which the selenium atom carries a large negative charge. The structure of MSeI was studied in solution by NMR spectroscopy and the 77Se NMR chemical shift shows a large upfield shift (-5 ppm) in the signal as compared to the true selones for which the signals normally appear in the downfield range (500-2500 ppm). This confirms that MSeI exists predominantly in its zwitterionic form in solution. Our theoretical studies show that the formation of the diselenide (MSeIox) from selenol tautomer is energetically more favored than the formation of the disulfide (MMIox) from the thiol tautomer of MMI. This study also shows that the replacement of the N−H group in MSeI by an N-methyl or N-benzyl substituent does not affect the nature of C−Se bond. In the third chapter, the inhibition of lactoperoxidase-catalyzed oxidation of ABTS by anti-thyroid drugs and related derivatives is described. The commonly used anti-thyroid agent methemazole (MMI) inhibits the lactoperoxidase (LPO) with an IC50 value of 7.0 µM which is much lower than that of the other two anti-thyroid drugs, PTU and MTU. The selenium analogue of methimazole (MSeI) also inhibits LPO with an IC50 value of 16.4 µM, which is about 4-5 times lower than that of PTU and MTU. In contrast to thiones and selones, the S- and Se-protected compounds do not show any noticeable inhibition under identical experimental conditions. While the inhibition of LPO by MMI cannot be reversed by increasing the hydrogen peroxide concentration, the inhibition by MSeI can be completely reversed by increasing the peroxide concentration. Some of the selenium compounds in the present study show interesting anti-oxidant activity in addition to their inhibition propertities. In the presence of glutathione (GSH), MSeI constitutes a redox cycle involving a catalytic reduction of H2O2 and thereby mimics the glutathione peroxidase (GPx) activity in vitro. These studies reveal that the degradation of the intracellular H2O2 by the selenium analogues of anti-thyroid drugs may be beneficial to the thyroid gland as these compounds may act as antioxidants and protect thyroid cells from oxidative damage. Because the drugs with an action essentially on H2O2 can reversibly inhibit thyroid peroxidase, such drugs with a more controlled action could be of great importance in the treatment of hyperthyroidism. Figure 2. (A) Concentration-inhibition curves for the inhibition of LPO-catalyzed oxidation of ABTS by MMI and MSeI at pH 7.0 and 30 °C. (B) Plot of initial rates (vo) for the LPO-catalyzed oxidation of ABTS vs concentration of H2O2. (a) Control activity, (b) 40 µM of MSeI, (c) 40 µM of MSeIox, (d) 80 µM of PTU, (e) 80 µM of MTU, (f) 40 µM of MMI. The incubation mixture contained 6.5 nM LPO, 1.4 mM ABTS, 0.067 M phosphatebuffer(pH7).(Refer PDF File) The fourth chapter describes the inhibition of lactoperoxidase (LPO)-catalyzed iodination of L-tyrosine by anti-thyroid drug methimazole (MMI) and its selenium analogue (MSeI). These inhibition studies show that MSeI inhibits LPO with an IC50 value of 12.4 µM, which is higher than that of MMI (5.2 µM). The effect of hydrogen peroxide on the inhibition of LPO by MMI and MSeI is also discussed. These studies also reveal that the inhibition of LPO-catalyzed iodination by MSeI can be completely reversed by increasing the peroxide concentration. On the other hand, the inhibition by MMI cannot be reversed by increasing the concentration of the peroxide. To under stand the nature of compounds formed in the reactions between anti-thyroid drugs and iodine, the reactions of MSeI with molecular iodine is described. MSeI reacts with I2 to produce novel ionic diselenides, and the nature of the species formed in this reaction appears to be solvent dependent. The formation of ionic species (mono and dications) in the reaction is confirmed by UV-Vis, FT-IR and FT-Raman spectroscopic investigations and single crystal x-ray studies. The major conclusion drawn from this study is that MSeI reacts with iodine, even in its oxidized form, to form ionic diselenides containing iodide or polyiodide anions, which might be possible intermediates in the inhibition of thyroid hormones. Dication X-ray crystal structure of the monocation X-ray crystal structure of the dication In the fifth chapter, the synthesis and characterization of several thiones and selones having N,N-disubstituted imidazole moiety are described. Experimental and theoretical studies were performed on a number of selones, which suggest that these compounds exist as zwitterions in which the selenium atom carries a large negative charge. The structures of selones were studied in solution by NMR spectroscopy and the 77Se NMR chemical shifts for the selones show large upfield shifts in the signals, confirming the zwitterionic structure of the selones in solution. The thermal isomerization of some S- and Se-substituted methyl and benzyl imidazole derivatives to produce the thermodynamically more stable N-substituted derivatives is described. A structure–activity correlation was attempted on the inhibition of LPO-catalyzed oxidation and iodination reactions by several thiouracil compounds, which indicates that the presence of an n-propyl group in PTU is important for an efficient inhibition. In contrast to the S- and Se-substituted derivatives, the selones produced by thermal isomerization exhibited efficient inhibition, indicating the importance of reactive selone (zwitterionic) moiety in the inhibition. The inhibition data on another well-known anti-thyroid agent carbimazole (CBZ) support the assumption that CBZ acts as a prodrug, requiring a conversion to methimazole (MMI) for its inhibitory action on thyroid peroxidase. (Refer pdf file/original thesis) Anti-Thyroid Drugs Thyroid Hormone Synthesis Biomimetics Thyroid Hormones - Biosynthesis Se-Methimazole (MSel) L-Tyrosine Thiones Selones Anti-Hyperthyroid Drugs Thyroid Gland Thyroxine (T4) Bioinorganic Chemistry

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