Global ETD Search

21	O estudo da enzima deidroquinato sintase de Mycobacterium tuberculosis H37Rv como alvo para o desenvolvimento de fármacos antituberculose Mendonça, Jordana Dutra de January 2010 (has links) Apesar da incidência per capita da tuberculose (TB) ter se mantido estável em 2005, o número de novos casos que surgem a cada ano continua a aumentar no mundo todo. De acordo com a Organização Mundial de Saúde, foram estimados 9,4 milhões de novos casos de TB em 2008, dos quais 1,4 milhões eram HIV - positivos, e com 1,8 milhões de mortes - o equivalente a 4.500 mortes por dia. Fatores como migração, privação sócio-econômica, co-infecção TB-HIV e o aparecimento de cepas resistentes contribuíram para o aumento do número de casos de TB no mundo, principalmente nos países onde a TB já foi considerada erradicada, e criaram a necessidade do desenvolvimento de novas terapêuticas. Alvos moleculares específicos, que são essenciais para o patógeno, e ausentes no hospedeiro, como as enzimas da via do ácido chiquímico são alvos atraentes para o desenvolvimento de novas drogas antituberculose. Essa via leva à síntese de compostos aromáticos, como aminoácidos aromáticos, e é encontrada em plantas, fungos, bactérias e parasitas do phylum Apicomplexa, mas está ausente em humanos. No ano de 2000, foi comprovada a essencialidade dessa via para a viabilidade do bacilo, tornando todas essas enzimas alvos validados para estudo. A segunda enzima da via, deidroquinato sintase (DHQS), catalisa a conversão de 3-deoxi-D-arabino heptulosonato-7-fosfato em 3-deidroquinato, o primeiro composto cíclico. Neste trabalho, são descritos o requerimento de metais divalentes na reação e a determinação do mecanismo cinético da DHQS. Os parâmetros cinéticos verdadeiros foram determinados e, juntamente com os experimentos de ligação, o mecanismo rápido-equilíbrio aleatório foi proposto. O tratamento com EDTA aboliu completamente a atividade de DHQS, sendo que a adição de Co+2 e Zn+2 levam a recuperação total e parcial da atividade enzimática, respectivamente. O excesso de Zn+2 inibe a atividade DHQS, e os dados de ITC indicaram a presença de dois sítios seqüenciais de ligação, o que é consistente com a existência de um sítio secundário inibitório. O protocolo de cristalização foi estabelecido e experimentos em andamento proporcionarão a elucidação da estrutura tridimensional da DHQS, que irá beneficiar tanto o desenho de novos inibidores como uma análise detalhada dos rearranjos do domínio da proteína. Em conjunto, estes resultados representam um passo essencial para o desenho racional de inibidores específicos que podem fornecer uma alternativa promissora para um novo, eficaz, e mais curto de tratamento para TB. / Although the estimated per capita tuberculosis (TB) incidence was stable in 2005, the number of new cases arising each year is still increasing globally. According with World Health Organization, there were estimated 9.4 million new TB cases in 2008, from which 1.4 million were HIV-positive, with 1.8 million deaths total – equal to 4500 deaths a day. Migration, socio-economic deprivation, HIV co-infection and the emergence of extensively-resistance strains, have all contributed to the increasing number of TB cases worldwide, mainly in countries where it was once considered eradicated, and have created an urgent need for the development of new therapeutics against TB. Specific molecular targets, that are essential to the pathogen, and absent in the host, like the enzymes of the shikimate pathway, are attractive targets to development of new antitubercular drugs. This pathway leads to the biosynthesis of aromatic compounds, including aromatic amino acids and it is found in plant, fungi, bacteria and Apicomplexa parasites, but is absent in humans. In 2000, this pathway was proved to be essential to the viability of the pathogen, which validates all its enzymes as potential targets. The second enzyme of this pathway, dehydroquinate synthase (DHQS), catalyzes the conversion of 3-deoxy-D-arabinoheptulosonate 7-phosphate in 3-dehydroquinate, the first cyclic compound. In this work, we described the metal requirement and kinetic mechanism determination of the dehydroquinate synthase. The determination of the true kinetic parameters was performed, and, in addition to ligand binding experiments, the rapid-equilibrium random mechanism was determined. The treatment with EDTA abolished completely the activity of DHQS, and the addition of Co+2 and Zn+2 leads to full and partial recovery of enzyme activity, respectively. Excess of Zn+2 inhibits the DHQS activity, and the ITC data revealed two sequential binding sites, which is consistent with the existence of a secondary inhibitory site. The crystallization protocol was established and ongoing experiments will provide the three-dimensional structure of mtDHQS, which will benefit both the design of novel inhibitors as well as detailed analysis of domain rearrangements of protein. Taken together, these results represent an essential step for the rational design of specific inhibitors that can provide a promising alternative to a new, effective, and shorter treatment for TB. Tuberculose Mycobacterium tuberculosis Cinética Enzimas Ácido chiquímico Dehydroquinate synthase Isothermal titration calorimetry Kinetic characterization Metalloenzyme Mycobacterium tuberculosis Shikimate pathway Tuberculosis
22	O estudo da enzima deidroquinato sintase de Mycobacterium tuberculosis H37Rv como alvo para o desenvolvimento de fármacos antituberculose Mendonça, Jordana Dutra de January 2010 (has links) Apesar da incidência per capita da tuberculose (TB) ter se mantido estável em 2005, o número de novos casos que surgem a cada ano continua a aumentar no mundo todo. De acordo com a Organização Mundial de Saúde, foram estimados 9,4 milhões de novos casos de TB em 2008, dos quais 1,4 milhões eram HIV - positivos, e com 1,8 milhões de mortes - o equivalente a 4.500 mortes por dia. Fatores como migração, privação sócio-econômica, co-infecção TB-HIV e o aparecimento de cepas resistentes contribuíram para o aumento do número de casos de TB no mundo, principalmente nos países onde a TB já foi considerada erradicada, e criaram a necessidade do desenvolvimento de novas terapêuticas. Alvos moleculares específicos, que são essenciais para o patógeno, e ausentes no hospedeiro, como as enzimas da via do ácido chiquímico são alvos atraentes para o desenvolvimento de novas drogas antituberculose. Essa via leva à síntese de compostos aromáticos, como aminoácidos aromáticos, e é encontrada em plantas, fungos, bactérias e parasitas do phylum Apicomplexa, mas está ausente em humanos. No ano de 2000, foi comprovada a essencialidade dessa via para a viabilidade do bacilo, tornando todas essas enzimas alvos validados para estudo. A segunda enzima da via, deidroquinato sintase (DHQS), catalisa a conversão de 3-deoxi-D-arabino heptulosonato-7-fosfato em 3-deidroquinato, o primeiro composto cíclico. Neste trabalho, são descritos o requerimento de metais divalentes na reação e a determinação do mecanismo cinético da DHQS. Os parâmetros cinéticos verdadeiros foram determinados e, juntamente com os experimentos de ligação, o mecanismo rápido-equilíbrio aleatório foi proposto. O tratamento com EDTA aboliu completamente a atividade de DHQS, sendo que a adição de Co+2 e Zn+2 levam a recuperação total e parcial da atividade enzimática, respectivamente. O excesso de Zn+2 inibe a atividade DHQS, e os dados de ITC indicaram a presença de dois sítios seqüenciais de ligação, o que é consistente com a existência de um sítio secundário inibitório. O protocolo de cristalização foi estabelecido e experimentos em andamento proporcionarão a elucidação da estrutura tridimensional da DHQS, que irá beneficiar tanto o desenho de novos inibidores como uma análise detalhada dos rearranjos do domínio da proteína. Em conjunto, estes resultados representam um passo essencial para o desenho racional de inibidores específicos que podem fornecer uma alternativa promissora para um novo, eficaz, e mais curto de tratamento para TB. / Although the estimated per capita tuberculosis (TB) incidence was stable in 2005, the number of new cases arising each year is still increasing globally. According with World Health Organization, there were estimated 9.4 million new TB cases in 2008, from which 1.4 million were HIV-positive, with 1.8 million deaths total – equal to 4500 deaths a day. Migration, socio-economic deprivation, HIV co-infection and the emergence of extensively-resistance strains, have all contributed to the increasing number of TB cases worldwide, mainly in countries where it was once considered eradicated, and have created an urgent need for the development of new therapeutics against TB. Specific molecular targets, that are essential to the pathogen, and absent in the host, like the enzymes of the shikimate pathway, are attractive targets to development of new antitubercular drugs. This pathway leads to the biosynthesis of aromatic compounds, including aromatic amino acids and it is found in plant, fungi, bacteria and Apicomplexa parasites, but is absent in humans. In 2000, this pathway was proved to be essential to the viability of the pathogen, which validates all its enzymes as potential targets. The second enzyme of this pathway, dehydroquinate synthase (DHQS), catalyzes the conversion of 3-deoxy-D-arabinoheptulosonate 7-phosphate in 3-dehydroquinate, the first cyclic compound. In this work, we described the metal requirement and kinetic mechanism determination of the dehydroquinate synthase. The determination of the true kinetic parameters was performed, and, in addition to ligand binding experiments, the rapid-equilibrium random mechanism was determined. The treatment with EDTA abolished completely the activity of DHQS, and the addition of Co+2 and Zn+2 leads to full and partial recovery of enzyme activity, respectively. Excess of Zn+2 inhibits the DHQS activity, and the ITC data revealed two sequential binding sites, which is consistent with the existence of a secondary inhibitory site. The crystallization protocol was established and ongoing experiments will provide the three-dimensional structure of mtDHQS, which will benefit both the design of novel inhibitors as well as detailed analysis of domain rearrangements of protein. Taken together, these results represent an essential step for the rational design of specific inhibitors that can provide a promising alternative to a new, effective, and shorter treatment for TB. Tuberculose Mycobacterium tuberculosis Cinética Enzimas Ácido chiquímico Dehydroquinate synthase Isothermal titration calorimetry Kinetic characterization Metalloenzyme Mycobacterium tuberculosis Shikimate pathway Tuberculosis
23	Examining the Regulation of 3-Deoxy-D-arabino-heptulosonate 7-phosphate Synthase in the Arabidopsis thaliana shikimate Pathway Johnson, Daniel 09 January 2014 (has links) 3-Deoxy-D-arabino-heptulosonate 7-phosphate (DAHP) synthase (DHS) catalyzes the first step of the shikimate pathway - a pathway involved in Tyrosine (Tyr), Tryptophan (Trp) and Phenylalanine (Phe) biosynthesis - by condensation of phosphoenolpyruvate and erythrose-4-phosphate to DAHP. Our lab previously demonstrated that Arabidopsis thaliana shikimate pathway flux is regulated by Tyr and Trp. This project suggests that A. thaliana DHS1 overexpressor lines have increased Trp accumulation with Tyr treatment, and that an A. thaliana DHS2 overexpressor line treated with Tyr has unchanged Trp accumulation, indicating that AtDHS2 is Tyr-sensitive. Confocal microscopy of all 3 AtDHS isoforms fused to yellow fluorescent protein demonstrates chloroplast localization. Bimolecular fluorescence complementation indicates that protein-protein interactions occur in the cytoplasm, and not in the chloroplast, for AtDHS1 and AtDHS2 with the metabolic regulator At14-3-3ω. These findings suggest that protein-protein interactions could regulate accumulation of AtDHS2 in the chloroplast, and are perhaps modulated by Tyr. BiFC shikimate pathway tryptophan tyrosine confocal regulation protein-protein interaction dahp synthase 14-3-3 phosphorylation Arabidopsis thaliana yfp 0309 0379 0817 0307
24	Phenolic 3-hydroxylases in land plants: biochemical diversity and molecular evolution Alber, Annette Veronika 02 December 2016 (has links) Plants produce a rich variety of natural products to face environmental constraints. Enzymes of the cytochrome P450 CYP98 family are key actors in the production of phenolic bioactive compounds. They hydroxylate phenolic esters for lignin biosynthesis in angiosperms, but also produce various other bioactive phenolics. We characterized CYP98s from a moss, a lycopod, a fern, a conifer, a basal angiosperm, a monocot and from two eudicots. We found that substrate preference of the enzymes has changed during evolution of land plants with typical lignin-related activities only appearing in angiosperms, suggesting that ferns, similar to lycopods, produce lignin through an alternative route. A moss CYP98 knock-out mutant revealed coumaroyl-threonate as CYP98 substrate in vivo and showed a severe phenotype. Multiple CYP98s per species exist only in the angiosperms, where we generally found one isoform presumably involved in the biosynthesis of monolignols, and additional isoforms, resulting from independent duplications, with a broad range of functions in vitro / Graduate / 2017-08-31 cytochrome P450 land plant evolution monolignol CYP98 C3'H Populus trichocarpa Physcomitrella patens phenolic conjugate hydroxycinnamic lignin coumaroyl-threonate coumaroyl-shikimate
25	Examining the Regulation of 3-Deoxy-D-arabino-heptulosonate 7-phosphate Synthase in the Arabidopsis thaliana shikimate Pathway Johnson, Daniel 09 January 2014 (has links) 3-Deoxy-D-arabino-heptulosonate 7-phosphate (DAHP) synthase (DHS) catalyzes the first step of the shikimate pathway - a pathway involved in Tyrosine (Tyr), Tryptophan (Trp) and Phenylalanine (Phe) biosynthesis - by condensation of phosphoenolpyruvate and erythrose-4-phosphate to DAHP. Our lab previously demonstrated that Arabidopsis thaliana shikimate pathway flux is regulated by Tyr and Trp. This project suggests that A. thaliana DHS1 overexpressor lines have increased Trp accumulation with Tyr treatment, and that an A. thaliana DHS2 overexpressor line treated with Tyr has unchanged Trp accumulation, indicating that AtDHS2 is Tyr-sensitive. Confocal microscopy of all 3 AtDHS isoforms fused to yellow fluorescent protein demonstrates chloroplast localization. Bimolecular fluorescence complementation indicates that protein-protein interactions occur in the cytoplasm, and not in the chloroplast, for AtDHS1 and AtDHS2 with the metabolic regulator At14-3-3ω. These findings suggest that protein-protein interactions could regulate accumulation of AtDHS2 in the chloroplast, and are perhaps modulated by Tyr. BiFC shikimate pathway tryptophan tyrosine confocal regulation protein-protein interaction dahp synthase 14-3-3 phosphorylation Arabidopsis thaliana yfp 0309 0379 0817 0307
26	Marine natural products as antimicrobial chemical defenses and sources of potential drugs Lane, Amy L. 11 November 2008 (has links) Marine organisms are widely recognized sources of an impressive array of structurally unusual compounds. Marine natural products have exhibited interesting biomedical activities, provided targets for synthetic organic chemists, and afforded opportunities for elucidation of enzymatic mechanisms involved in biosyntheses of these molecules. Secondary metabolite pathways probably evolved to mediate interactions between organisms in their natural habitats; however, the ecological functions of natural products remain poorly understood for the vast majority of cases. In the present series of investigations, I evaluate the hypothesis that macroalgal natural products play a role in defending these organisms against potentially pathogenic microbes in the marine environment. Further, I combine these ecology-driven investigations with evaluation of algal natural products as sources of novel human drugs. This combined approach resulted in discovery of 15 novel natural products from two tropical red algae, Callophycus serratus and an unidentified crustose red alga. These new molecules included seven novel carbon-carbon connectivity patterns, not previously reported in the synthetic or natural product literature, illustrating the abundance of secondary metabolite diversity among marine macroalgae. Further, many compounds exhibited both biomedical and ecological activities, suggesting the synergistic potential of combined biomedical/ecological investigations in providing drug leads as well as insights into the natural functions of secondary metabolites. Bromophycolides and callophycoic acids, natural products from C. serratus, inhibited growth of the marine fungal pathogen Lindra thalassiae. Spatially-resolved desorption ionization mass spectrometry (DESI-MS) revealed that antifungal natural products were found at specific sites on algal surfaces. The heterogeneous presentation of antimicrobial chemical defenses on host surfaces suggests the potential importance of spatial scale in understanding host-pathogen interactions, and illustrates the capacity of mass spectrometry imaging in understanding chemically-mediated biological processes. Finally, assessment of antimicrobial chemical defenses among extracts from 72 collections of tropical red algae revealed that nearly all algae were defended against at least one marine pathogen or saprophyte and further suggested the untapped potential of ecological investigations in the discovery of novel chemistry. Chemical defense Natural product Chemical ecology Shikimate Terpenoid NMR DESI-MS Algae Antimicrobial Drug discovery Marine Marine natural products Pharmacognosy Anti-infective agents
27	Clonagem e expressão heteróloga, modelagem e interações intermoleculares da enolpiruvilchiquimato 3-fosfato sintase de Paracoccidioides brasiliensis / Cloning and heterologous expression, modeling and intermolecular interactions of enolpiruvilchiquimato 3-phosphate synthase from Paracoccidioides brasiliensis Costa, Wanderson Lucas da 07 August 2017 (has links) Submitted by Cássia Santos (cassia.bcufg@gmail.com) on 2017-09-01T13:05:01Z No. of bitstreams: 2 Dissertação - Wanderson Lucas da Costa - 2017.pdf: 3043089 bytes, checksum: 32c1b9c81dae778ab37d939fdba41eb5 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2017-09-15T13:46:23Z (GMT) No. of bitstreams: 2 Dissertação - Wanderson Lucas da Costa - 2017.pdf: 3043089 bytes, checksum: 32c1b9c81dae778ab37d939fdba41eb5 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2017-09-15T13:46:23Z (GMT). No. of bitstreams: 2 Dissertação - Wanderson Lucas da Costa - 2017.pdf: 3043089 bytes, checksum: 32c1b9c81dae778ab37d939fdba41eb5 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2017-08-07 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Paracoccidioides spp. are thermodymorphic fungi that when inhaled by humans, these conidia find a favorable environment, changing to the yeast phase and becoming pathogenic causing paracoccidioidomycosis (PCM), one of the most prevalent systemic mycoses in Brazil. Some antifungals are used in the treatment of PCM. Treatment depends on the patient's progression and tolerability of each drug, but their treatment may be for long periods and cause various side effects in the patient. The chiquimate pathway is coordinated by 7 enzymes that perform consecutive steps to convert erythrose-4-phosphate and phosphoenol pyruvate (PEP) into chorismate. In microorganisms, this pathway is involved in the production of the amino acids phenylalanine, tyrosine and tryptophan; These amino acids are essential to the maintenance of these organisms. In this work, pGEX4T3 vector cloning and heterologous expression of Pb18 EPSP synthase belonging to the chiquimate pathway were performed. This protein was expressed in E. coli (DE3) strain and purified. Antibodies were produced for expression analysis of the protein in Western blot. The modeling of EPSP synthase was performed aiming to identify the amino acids involved in the active site. The pull down-GST assay with soluble Pb18 proteins allowed the identification of 40 proteins that interact with EPSP synthase. These proteins belong to different functional categories, which are involved with the availability of phosphoenol pyruvate, the substrate necessary for the functioning of the chiquimate pathway. / Paracoccidioides spp. são fungos termodimórficos que ao serem inalados pelo ser humano, esses conídios encontram um ambiente propício, mudando para a fase de levedura e tornando-se patogênico causando a paracoccidioidomicose (PCM), umas das micoses sistêmicas de maior prevalência no Brasil. Alguns antifúngicos são empregados no tratamento da PCM. O tratamento depende do avanço da doença e da capacidade de tolerância do paciente a cada medicamento, mas o seu tratamento pode ser por longos períodos e causando diversos efeitos colaterais no paciente. A via do chiquimato é coordenada pela ação de 7 enzimas que realizam passos consecutivos para transformar a eritrose-4-fosfato e fosfoenol piruvato (PEP) em corismato. Em micro-organismos, esta via está envolvida com a produção dos aminoácidos fenilalanina, tirosina e triptofano; estes aminoácidos são essenciais à manutenção desses organismos. Neste trabalho foi realizado a clonagem em vetor pGEX4T3 e expressão heteróloga da EPSP–sintase de Pb18 pertencente à via do chiquimato. Essa proteína foi expressa em linhagem E. coli (DE3) e purificada. Os anticorpos foram produzidos para análise da expressão da proteína em Western blot. A modelagem da EPSP-sintase foi realizada visando identificar os aminoácidos envolvidos no sítio ativo. O ensaio de pull down-GST com proteínas solúveis de Pb18 possibilitou a identificação de 40 proteínas que interagem com EPSP-sintase. Essas proteínas pertencem a diferentes categorias funcionais, as quais estão envolvidas com a disponibilidade de fosfoenol piruvato, substrato necessário para o funcionamento da via do chiquimato. Expressão heteróloga EPSP-sintase Modelagem Paracoccidioides brasiliensis Pull down-GST Via do chiquimato Heterologus expression EPSP-synthase Modeling Paracoccidioides brasiliensis Pull down-GST Shikimate pathway
28	HPLC stanovení gallové kyseliny jako možného produktu enzymatické reakce šikimové kyseliny, NADP+ a šikimátdehydrogenasy. / HPLC determination of gallic acid as a possible product of enzymatic reaction of shikimic acid, NADP+ and SDH. Smolejová, Jana January 2017 (has links) This diploma thesis deals with the development of an HPLC method for the determination of selected compounds participating in enzymatic reaction leading to the formation of gallic acid. The analysed reaction mixture contains the following reagents: shikimic acid, NADP+ and shikimatedehydrogenase (SDH) extracted from parsley; the presumed product of the reaction is gallic acid. Two chromatographic methods for the determination of the above mentioned compounds were developed using C18 HPLC column and porous graphitic carbon Hypercarb column. Molecular absorption spectrometric detection in the UV range was used in all measurements. Separation on the C18 column was found particularly suitable for analysing the composition of the end products of the reaction. Because of the NADP+ and shikimic acid peak overlap it is necessary to observe absorbance at 212 and 260 nm. Shikimic acid and NADP+ can be quantified due to the fact that shikimic acid does not absorb at 260 nm while NADP+ absorb radiation at both wavelengths. Separation via Hypercarb column was found particularly suitable for analysing the process of the reaction; additional products or intermediates can be seen in chromatograms compared to the C18 method. Determination with Hypercarb column is characterized by higher sensitivity and lower limit...
29	Regulation of kinases by synthetic imidazoles, nucleotides and their deuterated analogues Nkosi, Thokozani Clement 19 April 2016 (has links) Deuteration is the replacement of a hydrogen atom by deuterium atom in a molecule. The replacement begins at the most acidic hydrogen in the molecule. In ATP, the deshielded hydrogen is C8-H which is the first replaced during deuteration. During ATP deuteration some of the ATP is hydrolysed to ADP concurrently. Using kinetic analysis, it was confirmed that the ATP hydrolysis that occurs is 1st order in ATP concentration, while the hydrogen replacement is 2nd order. The ATP and its C8 deuterated analogue were tested against three enzymes shikimate kinase (SK), acetate kinase (AK) and glutamine synthetase (GS) to determine if a kinetic isotope effect (KIE) exists in these systems. With AK and GS, the KIED increased as the KIEH decreased, while with SK the KIED decreased as the KIEH increased as the concentration of the ATP or deuterated analogue increased. Deuteration of imidazole and purine compounds reduced the specific activity of AK or SK at low concentrations in an enzyme-catalysed reaction. From a library of imidazole-containing compounds that inhibited SK, three compounds were selected and their IC50 values were determined on the SK-catalysed reaction. These compounds show a differential potency and efficiency between their protonated and deuterated analogues when compared in a 1:1 mixture. Synthesized purines incorporating three different substituents at N-9 were tested against AK or SK for their ability to lower the specific activity of the enzymes used / Physics / M. Sc. (Physics) Acetate kinase Glutamine synthetase Shikimate kinase Adenosine triphosphate rate order Proton nuclear magnetic resonance Enzyme activity and kinetics Imidazole and purine deuteration 572.744 Deuterium Acetates Glutamine synthetase Adenosine triphosphate Proton magnetic resonance Enzyme activation Enzyme kinetics
30	Characterisation and Control of 3-Deoxy-D-arabino-heptulosonate 7-phosphate Synthase from Geobacillus sp Othman, Mohamad January 2014 (has links) 3-Deoxy-D-arabino heptulosonate 7-phosphate synthase (DAH7PS) catalyses the first step of the shikimate pathway, responsible for the biosynthesis of aromatic amino acids. This pathway is found in microorganisms, plants and apicomplexan parasites and its absence in mammals makes it a viable target for antimicrobial drug design. DAH7PS enzymes differ in the regulatory machinery that decorates the catalytic (β/α)8 barrel. Some DAH7PS enzymes are fused to chorismate mutase (CM), another enzyme in the shikimate pathway. This fusion protein is allosterically regulated by chorismate (CA) or prephenate (PA), the precursor of tyrosine and phenylalanine. It has been suggested that DAH7PS enzymes evolved these extensions to the core barrel for the sole purpose of regulation. Geobacillus sp DAH7PS (GspDAH7PSWT) is a thermophilic type Iβ DAH7PS enzyme with an N-terminal CM domain fused through a linker region. This thesis describes the functional characterisation work carried out on GspDAH7PSWT, in attempt to help determine how DAH7PS enzymes evolved such diverse methods of regulation. Chapter 2 describes the functional characterisation work carried out on the catalytic and regulatory domains of GspDAH7PSWT. The enzyme demonstrated both DAH7PS and CM activities with the DAH7PS domain determined to be metal dependent and most activated by Cd2+. PA completely inhibited the catalytic activity of GspDAH7PSWT, and AUC demonstrated an equilibrium exists between the dimeric and tetrameric quaternary states of the enzyme in solution. Chapter 3 describes the domain truncation of GspDAH7PSWT carried out at the linker region in order to obtain two separate protein domains, the catalytic domain lacking the N-terminal domain (GspDAH7PSDAH7PS) and the regulatory domain without the catalytic domain (GspDAH7PSCM). Both variants were fully characterised, and information obtained from each domain was compared to the respective catalytic and regulatory domains of the wild-type enzyme, which was also characterised. Like GspDAH7PSWT, GspDAH7PSDAH7PS showed greatest activation in the presence of Cd2+, with other metals having varying effects on activation rates and stability of the enzyme. Both truncated variants followed Michaelis-Menten kinetics where GspDAH7PSDAH7PS was found to be more active than GspDAH7PSWT and unaffected by PA, whereas GspDAH7PSCM was a less efficient catalyst than the CM domain of GspDAH7PSWT. AUC demonstrated that in solution an equilibrium occurs between the monomeric and tetrameric oligomeric states of GspDAH7PSDAH7PS. Chapter 4 summarises the findings of the thesis along with future directions of this research, combining the results obtained and expanding upon them. It is concluded that the catalytic regulatory CM domain supports both protein structure and allosteric regulation of GspDAH7PSWT DAH7PS GspDAH7PS Geobacillus sp Gsp Enzyme Inhibition Regulation Protein Shikimate Pathway Chorimate Mutase CM Prephenate Truncation Crystal Structure DSF Analytical Ultracentrifugation Metal Activation Cloning Purification Chromatography

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