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1	Salts and cocrystals of substituted phenylacetic acids Tchibouanga, Remi Rolland Ngoma January 2018 (has links) Thesis (Master of Applied Science in Chemistry)--Cape Peninsula University of Technology, 2018. / The prediction of the single crystal structure that will form due to the combination of two or more compounds to form a multicomponent crystal is one of the important areas of research in crystal engineering. Since these compounds display different properties when combined as a single crystal, knowledge of synthesis and design of the resulting compound is essential. The formation of a multicomponent crystal, such as a salt or a cocrystal generally depends on the complementarity of the functional groups present on both components. This means that basicity and acidity of the functional groups present on the selected compounds need to be considered. This study investigated salts and cocrystals of 3-chloro-4-hydroxyphenylacetic acid (CHPAA) using the ΔpKa rule. The calculated ΔpKa values were recorded and correlated with the experimental analysis in predicting the outcome of the crystallisation experiments ie. salt or cocrystal formation. This was further confirmed by the analysis of the C-O bond lengths found in the crystal structures. Salts were obtained by combinations of CHPAA with several organic bases (co-formers) such as diethylamine, dibutylamine, 2-aminopyridine, 2-amino-4-methylpyridine, 2-amino-6-methylpyridine and 4-dimethylaminopyridine. The calculated ΔpKa values were within the range of salt formation. Furthermore, the experimental analysis also showed that all resulting compounds were salts. Cocrystals were obtained by reactions of nicotinamide, isonicotinamide, phenazine and 4,4’-bipyridine with CHPAA. Again, the calculated ΔpKa values predicted cocrystals as the new solid forms. Experimental analysis carried out also confirmed cocrystal formation. For all resulting compounds, the comparison of intermolecular interactions as well as supramolecular synthons were reported. All compounds were synthesised by slow evaporation techniques using various organic solvents and characterised by single crystal X-ray diffraction, powder X-ray diffraction, thermal analysis and Fourier transformer infrared spectroscopy. From the structural analysis, it was found that all resulting structures displayed strong N-H•••O and O-H•••O intermolecular interactions including weak interactions of C-H•••Cl, C-H•••O and C-H•••π for a few of the structures. Furthermore, comparison of the crystal structures showed that no packing arrangement similarity existed between the compounds. Phenylacetic acid Crystallization Salts
2	Structural and functional characterization of PaaK1 & PaaK2: phenylacetate CoA ligase paralogs from Burkholderia cenocepacia J2315. / Structural and functional characterization of PaaK1 and PaaK2 Law, Adrienne 18 October 2011 (has links) Aromatic compounds comprise approximately 25% of the Earth`s biomass. Accordingly, turnover of these thermostable compounds is essential to the biogeochemical carbon cycle. Specialized microbial enzymatic pathways are largely responsible for mineralization of aromatic compounds, and are extensively studied for bioremediation purposes. The phenylacetic acid degradation pathway (PAA) is of particular interest as it is utilized for degradation of a multitude of aromatic compounds, including environmental pollutants, and appears to be widely distributed among bacteria. Intriguingly, the PAA pathway has also been implicated as a virulence factor in the cystic fibrosis pathogen, Burkholderia cenocepacia. As such, detailed biochemical characterization of the PAA pathway holds great potential for improving bioremediation strategies for aromatic pollutants, as well as understanding carbon source utilization during B. cenocepacia infection. A striking feature of the PAA pathway in B. cenocepacia is the presence of two genes encoding the phenylacetate CoA ligase (PCL) enzyme (paaK1 and paaK2), responsible for the initial CoA activation of phenylacetic acid. PCLs are members of the adenylate forming enzyme superfamily. However, sequence alignments reveal several intriguing features, including a potentially novel microdomain consisting of the initial ~80 N-terminal residues, which possesses percent identity to any structurally characterized family member. Furthermore, this superfamily utilizes a complicated catalytic mechanism, exploiting several conserved motifs during the reaction process. The precise roles of many key conserved residues are not yet well understood, especially during the pre-adenylation, ATP bound state, for which few high quality crystal structures exist. In order to define the early stages of the catalytic mechanism, and to assess how the divergent polypeptide region may impact the PaaK enzymes, we have pursued a detailed structural characterization of the paralogs, complemented with functional assessments. Specifically, we have produced a 1.6 Å resolution crystal structure of PaaK1 in complex with ATP, which reveals a novel helical bundle arrangement at the N-terminal domain never before seen in this superfamily. Remarkably, homodimerization of PaaK1 appears to reconstitute potentially important β sheet interactions observed in the classical N-terminal arrangement of family members. Moreover, our structure is one of few which contain well ordered β and γ phosphates, allowing for detailed examination of significant protein-ATP interactions with conserved catalytic residues. To better comprehend the roles of these residues over the course of the reaction, we have produced additional crystal structures of PaaK1 and PaaK2 in complex with the phenylacetyl adenylate intermediate. Notably, PaaK2 was captured following the domain reorientation, poised to catalyze thioesterification of phenylacetyl adenylate, providing insight into the later stages of the reaction process. Furthermore, the intermediate co-structures divulge the location of the aryl substrate binding pocket for both paralogs. Detailed comparisons of the binding pockets accompanied kinetic characterizations for both paralogs, demonstrating that PaaK2 possesses an apparent KM of 150 μM for phenylacetic acid, more than double that of PaaK1 (62 μM). Our findings provide preliminary evidence for distinct functional roles of the PaaK paralogs in B. cenocepacia, while imparting additional insight into catalytic roles of conserved residues within the adenylate forming superfamily at large. / Graduate aromatic compounds phenylacetic acid
3	The attenuated virulence of a Burkholderia cenocepacia K56-2 paaABCDE mutant is due to inhibition of quorum sensing by release of phenylacetic acid Pribytkova, Tatiana 03 September 2014 (has links) The phenylacetic acid degradation pathway of Burkholderia cenocepacia is necessary for full pathogenicity of B. cenocepacia in nematode; however, the reasons of such requirements are unknown. Unlike wild type B. cenocepacia, a deletion mutant of the phenylacetyl-CoA monooxygenase complex (ΔpaaABCDE) released phenylacetic acid extracellularly in conditions that allow infection in Caenorhabditis elegans. Addition of phenylacetic acid further decreased the pathogenicity of the ΔpaaABCDE, which cannot metabolize phenylacetic acid, but did not affect the wild type, due to phenylacetic acid consumption. Detection of acyl-homoserine lactones was reduced in spent medium from ΔpaaABCDE compared to that of the wild type strain. Phenotypes repressed in ΔpaaABCDE, protease activity and pathogenicity against C. elegans, increased with the addition of exogenous N-octanoyl-L-homoserine lactone. Thus, it was demonstrated that the attenuated phenotype of B. cenocepacia ΔpaaABCDE is due to quorum sensing inhibition by release of phenylacetic acid, affecting N-octanoyl-L-homoserine lactone signaling. / October 2014 Burkholderia phenylacetic acid Quorum sensing
4	Arsenical derivatives of phenylacetic acid ... / Robertson, G. Ross January 1921 (has links) Thesis (Ph. D.)--University of Chicago. / "Reprinted from the Journal of the American Chemical Society, Vol. XLIII. No. 1. January 1921." Includes Abstract. Includes bibliographical references. Also available on the Internet.
5	Preparation of Various Amino Alcohol Derivatives of p-Chlorophenoxyacetic Acid and Phenylacetic Acid Richardson, Eugene E. January 1947 (has links) This thesis deals with the preparation of dialkylaminoalkoxy derivatives of p-chlorophenoxyacetic acid and phenylacetic acid. p-chlorophenoxyacetic acid phenylacetic acid chemistry Antihistamines.
6	A Study of Substituted Diphenylacetic Acids Worthen, John E., Jr. January 1950 (has links) This thesis describes the creation of substituted diphenylacetic acids and their results. diphenylacetic acids insecticide DDT Phenylacetic acid.
7	The Antidepressant/Antipanic/Neuroprotective Drug Phenelzine: Neuropharmacological and Drug Metabolism Studies Kumpula, David J Unknown Date No description available. phenelzine phenylethylidenehydrazine phenylethylamine phenylacetic acid monoamine oxidase monoamine oxidase inhibitors drug metabolism gamma-aminobutyric acid alanine
8	Neue Wege in der Weißen Biotechnologie Tischler, Dirk, Oelschlägel, Michel, Zimmerling, Juliane, Schlömann, Michael 20 October 2016 (has links) (PDF) Mikroorganismen sind in der Lage, zahlreiche Xenobiotika abzubauen. Dazu nutzen sie unter aeroben Bedingungen oft einleitend Oxygenasen. Durch diese kann molekularer Luftsauerstoff aktiviert und auf organische Moleküle übertragen werden. Danach können die Verbindungen in den Metabolismus der Mikroorganismen eingeschleust und teils oder vollständig abgebaut werden. Am Beispiel des Styrols zeigen wir hier eine solche Abbauroute und wie wir diese biotechnologisch nutzen können, um interessante Verbindungen zu synthetisieren. Zielmoleküle der gesamten Enzymkaskade sind dabei diverse Phenylessigsäurederivate. Weiße Biotechnologie Mikrobieller Styrolabbau Enzymkaskade Phenylessigsäure white biotechnology microbial styrene degradation enzyme cascade phenylacetic acid ddc:570 Bioverfahrenstechnik Styrol Mikrobieller Abbau Phenylessigsäurederivate
9	Neue Wege in der Weißen Biotechnologie Tischler, Dirk, Oelschlägel, Michel, Zimmerling, Juliane, Schlömann, Michael January 2015 (has links) Mikroorganismen sind in der Lage, zahlreiche Xenobiotika abzubauen. Dazu nutzen sie unter aeroben Bedingungen oft einleitend Oxygenasen. Durch diese kann molekularer Luftsauerstoff aktiviert und auf organische Moleküle übertragen werden. Danach können die Verbindungen in den Metabolismus der Mikroorganismen eingeschleust und teils oder vollständig abgebaut werden. Am Beispiel des Styrols zeigen wir hier eine solche Abbauroute und wie wir diese biotechnologisch nutzen können, um interessante Verbindungen zu synthetisieren. Zielmoleküle der gesamten Enzymkaskade sind dabei diverse Phenylessigsäurederivate. info:eu-repo/classification/ddc/570 ddc:570
10	ESTUDO CONFORMACIONAL DE DERIVADOS DO ÁCIDO FENILACÉTICO EMPREGANDO CÁLCULOS TEÓRICOS E AS ESPECTROSCOPIAS DE RESSONÂNCIA MAGNÉTICA NUCLEAR E INFRAVERMELHO Levandowski, Mariana Negrelli 13 February 2017 (has links) Made available in DSpace on 2017-07-20T12:40:20Z (GMT). No. of bitstreams: 1 Mariana_N_Levandowski.pdf: 3613595 bytes, checksum: 6d13f04a1872ade8572c9eae481770c6 (MD5) Previous issue date: 2017-02-13 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This study presents a theoretical and experimental analysis of the conformational equilibrium of phenylacetic acid and its derivatives, namely: o-fluorophenylacetic, ochlorophenylacetic, o-bromophenylacetic, o-nitrophenylacetic, hydroxyphenylacetic, m-fluorophenylacetic, p-fluorophenylacetic, p-nitrophenylacetic, p-hydroxyphenylacetic, p-mercaptophenylacetic and p-aminophenylacetic. Thetechniques used were computational calculations and nuclear magnetic resonance and infrared spectroscopy.The study made it possible to verify the conformational preference of each compound, determined by their energies and geometries, which were evaluated both for the isolated molecule, at distinct theory levels, and in different solvents, with the IEF-PCM solvation model. By using natural bond orbital calculations, it was possible to identify the main orbital interactions for each conformation. With the total deletion calculations, it was verified that there was a balance between the steric and hyperconjugative effects in the stabilization of the most stable structures. The majority conformers of halogenated compounds in ortho revealed the same spatial orientation between the carbonyl and the benzene ring, similar to that of the phenylacetic acid. In the derivatives, nitro and hydroxylated in ortho, there was the presence of an intramolecular hydrogen bond, but in none of these cases the interaction referred to one of the main conformers. The infrared experiments in solvents of different polarities, allowed the identification of more than one band, enabling the attribution of conformers present in the equilibrium as well as the observation of the same tendency as the one obtained theoretically. The coupling constant 1JCH was evaluated through nuclear magnetic resonance. No significant variation of this constant was observed, showing that the major contribution to the equilibrium is related to the majoritarian conformer, which prevails even with the change in the polarity of the medium, for each compound under evaluation. / Neste trabalho foi apresentado uma análise teórica e experimental do equilíbrio conformacional do ácido fenilacético e seus derivados, sendo eles: ofluorofenilacético, o-clorofenilacético, o-bromofenilacético, o-nitrofenilacético, ohidróxifenilacético, m-fluorofenilacético, p-fluorofenilacético, p-nitrofenilacético, phidróxifenilacético,p-mercaptofenilacético e p-aminofenilacético. As técnicas utilizadas foram os cálculos computacionais e as espectroscopias de ressonância magnética nuclear e infravermelho. Com este estudo foi possível verificar a preferência conformacional de cada composto, determinadas pelas suas energias e geometrias, as quais foram avaliadas tanto para a molécula isolada, em distintos níveis de teoria, quanto em diferentes solventes, com o modelo de solvatação IEFPCM. Através dos cálculos dos orbitais naturais de ligação foi possível identificar as principais interações orbitais para cada conformação. Com os cálculos de deleção total, verificou-se que houve um balanço entre os efeitos estérico e hiperconjugativo na estabilização das estruturas mais estáveis. Os confôrmeros majoritários dos compostos halogenados em orto mostraram a mesma orientação espacial entre a carbonila e o anel benzênico, semelhante ao ácido fenilacético. Nos derivados,nitrado e hidroxilado em orto, houve a presença de uma ligação de hidrogênio intramolecular, em nenhum dos casos esta interação era referente a um dos confôrmeros principais. Utilizando a técnica de infravermelho na região do fundamental da carbonila, em solventes de diferentes polaridades, permitiram identificar a presença de mais de uma banda, sendo possível a atribuição dos confôrmeros presentes no equilíbrio, bem como observar a mesma tendência obtida teoricamente. Com a espectroscopia de ressonância magnética nuclear foi avaliada a constante de acoplamento 1JCH. Não houve uma variação significativa desta constante, mostrando que a maior contribuição no equilíbrio está relacionada com o confôrmero majoritário, que prevalece mesmo com a mudança da polaridade do meio, de cada composto avaliado. Análise Conformacional ácido fenilacético cálculo teórico modelo de solvatação IEF-PCM espectroscopia no infravermelho espectroscopia de RMN NBO Conformational analysis phenylacetic acid theoretical calculation IEFPCM solvation model Iinfrared spectroscopy NMR spectroscopy NBO

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