Charakterizace železo-sirných flavoproteinů z hydrogenosomu Trichomonas vaginalis / Characterization of hydrogenosomal iron-sulfur flavoproteins from Trichomonas vaginalis

Pilařová, Kateřina

January 2012

Trichomonas vaginalis is flagelated microaerophilic protozoan parasite from Excavata group, which causes trichomoniasis, the most common nonviral sexually transmitted disease in the world. It causes vaginitis in women and uretritis in man and it can also cause problems for example during pregnancy. This thesis is aimed on the characterisation of hydrogenosomal iron-sulfur flavoproteins (ISF) from Trichomonas vaginalis, proteins, which were only recently discovered in the proteome of hydrogenosome of T. vaginalis. Specifically, we have focused on characterisation of ISF3 which is, according to our data, active homodimer and binds flavin mononucleotide (FMN) and iron-sulphur centre in its active site. The iron- sulphur centre is not characterised yet. ISF3 is able to reduce oxygen, hydrogen peroxide, sodium nitrate and metronidazole also in the enzymatic system with PFO and ferredoxin. Next, I tried to reduce ammonium sulphate with ISF3, but unsuccessfully. These results correspond with the activities obtained for ISF from Methanosarcina thermophila, where ISF reduces oxygen and hydrogen peroxide to water. In addition, ISF3 is able to reduce nitrogen compounds. It is important according to the fact, that metronidazole is a drug from the group of 5−nitroimidazoles. The other results show the decrease...

BASES FOR BREADTH - INSIGHTS INTO HOW THE MECHANISM AND DYNAMICS OF NITROREDUCTASE CAN EXPLAIN THIS ENZYME'S BROAD SUBSTRATE REPERTOIRE

Pitsawong, Warintra

01 January 2014

Nitroreductase from Enterobacter cloacae (NR) is a member of a large family of homologues represented in all branches of the tree of life. However the physiological roles of many of these enzymes remain unknown. NR has distinguished itself on the basis the diverse sizes and chemical types of substrates it is able to reduce (Koder et al 1998). This might be an evolved characteristic suiting NR for a role in metabolism of diverse occasional toxins. While there are numerous studies of determinants of substrate specificity, we know less about mechanisms by which enzymes can be inclusive. Therefore, we present a synthesis of NR's dynamics, stability, ligand binding repertoire and kinetic mechanism. We find that NR reduces para-nitrobenzoic acid (p-NBA) via a simple mechanism limited by the chemical step in which the nitro group is reduced (Pitsawong et al 2014). Thus, for this substrate, NR's mechanism dispenses with gating steps that in other enzymes can enforce substrate specificity. Our data demonstrate that substrate reduction is accomplished by rate-contributing hydride transfer from the flavin cofactor coupled to proton transfer from solvent, but do not identify specific amino acids with a role. This is consistent with our crystal structures, which reveal a spacious solvent-exposed active site bounded by a helix that moves to accommodate binding of substrate analogs (Haynes et al 2002). Because it is able to reduce TNT (trinitrotoluene), herbicides and pesticides, NR has important potential utility in bioremediation.

nitroreductase

flavoproteins

enzyme kinetics

pre-steady state kinetics

reduction of nitroaromatic

broad substrate repertoire

Structure-function studies of conserved sequence motifs of cytochrome b5 reductase

Crowley, Louis J.

January 2007

Dissertation (Ph.D.)--University of South Florida, 2007. / Title from PDF of title page. Document formatted into pages; contains 197 pages. Includes vita. Includes bibliographical references.

Structure-function studies of conserved sequence motifs of cytochrome b5 reductase /

Crowley, Louis J.

January 2007

Dissertation (Ph.D.)--University of South Florida, 2007. / Includes vita. Includes bibliographical references (leaves 188-197). Also available online.

The Circadian Clock in Monarch Butterfly: A Tale of Two CRYs: A Dissertation

Yuan, Quan

08 May 2009

Every fall, Northeastern America monarch butterflies (Danaus plexippus) undergo an extraordinary migration to their overwintering site in Central Mexico. During their long migration, monarch migrants use sun compass to navigate. To maintain a southward flying direction, monarch migrants compensate for the continuously changing position of the sun by providing timing information to the compass using their circadian clock. Animal circadian clocks depend primarily on a negative transcriptional feedback loop to track time. I started my work to re-construct the monarch butterfly circadian clock negative feedback loop in cell culture, focusing on homologs of Drosophila clock genes. It turned out that in addition to a Drosophila-like cryptochrome (cry1) gene, a second mammalian-like cry2 gene exists in monarch butterflies and many other insects, except in Drosophila. The two CRYs showed distinct functions in our initial assays in cultured Drosophila Schneider 2 (S2) cells. CRY2 functions as a potent transcriptional repressor, while CRY1 is light sensitive but shows no obvious transcriptional activity. The existence of two cry genes in insects changed the Drosophila-centric view of insect circadian clock. During the course of my study, our lab obtained a monarch cell line called DpN1 cells. These cells possess a light-driven clock and contributed tremendously to the research on monarch circadian clock. Using this cell line, I provided strong evidence supporting monarch CRY2’s role as a major circadian clock repressor and identified a protein-protein protective interaction cascade underlying the CRY1-mediated resetting of the molecular oscillator in DpN1 cells. I continued my work trying to understand how insect CRY2 inhibits transcription. I provided evidence suggesting the involvement of monarch PER in promoting CRY2 nuclear entry in both S2 cells and DpN1 cells. Finally, I mapped CRY2’s transcriptional inhibitory activity onto its N-terminal domain. Collectively, my research helped to change our view of insect clocks from a Drosophila-centric standpoint to a much more diverse picture. My studies also advanced the understanding of monarch circadian clock mechanism, and provides a foundation for further studies.

circadian clock

monarch butterfly

Circadian Rhythm

Butterflies

Biological Clocks

Drosophila Proteins

Flavoproteins

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Caracterização bioquímica e avaliação in vitro da ativação de fibroblastos e do potencial leishmanicida de uma L-aminoácido oxidase (LAAO) da peçonha de Crotalus durissus terrificus / Biochemical characterization and in vitro evaluation of the fibroblast activation and the leishmanicide potential of an L-amino acid oxidase (LAAO) from Crotalus durissus terrificus venom

Wiezel, Gisele Adriano

02 September 2016

Acidentes causados por animais peçonhentos representam um grave problema de saúde pública, principalmente em áreas de difícil acesso da população ao serviço de saúde. No Brasil, o gênero Crotalus é o gênero de serpente cuja peçonha apresenta o maior índice de letalidade. As L-aminoácido oxidases (LAAOs) estão presentes na peçonha crotálica e são flavoenzimas que catalisam a oxidação de L-aminoácidos, produzindo, concomitantemente, peróxido de hidrogênio e amônia. LAAOs têm demonstrado atividade citotóxica, antimicrobiana, antitumoral, antiparasitária e na agregação plaquetária. Os objetivos desse estudo incluíram o isolamento e a caracterização bioquímica da LAAO de C. d. terrificus, assim como a avaliação de seu potencial leishmanicida e da ativação de fibroblastos. Foram desenvolvidos dois protocolos para isolamento da LAAO. O primeiro consistiu em cromatografias de troca catiônica, filtração molecular e de interação hidrofóbica. O segundo protocolo diferiou do primeiro na terceira etapa (cromatografia de afinidade). Cromatografia de fase reversa da LAAO isolada demonstrou um alto grau de pureza e a separação do cofator FAD. A massa molecular da LAAO foi determinada por espectrometria de massas MALDITOF (58.702,196 Da). A caracterização estrutural dessa LAAO também incluiu a dedução da sua sequência primária e a localização do sítio de glicosilação e das ligações dissulfeto através de espectrometria de massas em equipamentos LC-MS/MS com diferentes tipos de fragmentação (HCD, ETD e EThcD). A sequência primária (498 resíduos) foi obtida após digestão da LAAO com diferentes proteases e o sítio de glicosilação foi localizado na Asn361. Análise por SDS-PAGE da LAAO em condições reduzida e reduzida/deglicosilada mostrou que cerca de 5% da massa da proteína é relativa à presença de açúcar. As ligações dissulfeto (Cys10-Cys171 e Cys331-Cys412) foram localizadas após digestão da enzima em pH ácido e análise por LC-MS/MS. A avaliação qualitativa da especificidade de substratos mostrou preferência por L-aminoácidos hidrofóbicos e, a ordem de especificidade (L-Phe>LLeu> L-Met>L-Trp>L-Ile) foi determinada através da cinética enzimática. A estabilidade da LAAO foi avaliada em diferentes temperaturas, tempos e condições de armazenamento. A enzima mostrou grande perda de atividade ao longo do tempo, sendo que a liofilização e o congelamento a -20 °C inibiram sua atividade completamente. A estabilidade térmica, avaliada pela técnica do Termofluor, mostrou que a LAAO é mais estável na presença de pH ácido, diferentes concentrações de substratos e ausência de NaCl. Promastigotas de Leishmania amazonensis foram estimulados com a LAAO (55 mUAE) e cerca de 30% dos parasitas foram mortos. Fibroblastos L929 também foram estimulados com a LAAO e em baixa concentração da enzima (1,83 mUAE) a viabilidade celular foi próxima de zero. Nas concentrações sem morte celular significativa, a ativação dos fibroblastos foi avaliada através da dosagem de óxido nítrico e citocinas, mas, em nenhum dos casos, houve ativação das células e maior produção desses compostos. Portanto, no presente estudo, foi isolada e caracterizada uma LAAO de C. d. terrificus que apresentou ação contra promastigotas de L. amazonensis e alta citotoxicidade para fibroblastos, sem causar a ativação dessas células / Acidents caused by venomous animals represent a serious publich health problem, mainly in remote areas where the acess to the health service is difficult. In Brazil, the genus Crotalus is the most lethal genus among the Brazilian snakes. The L-amino acid oxidases (LAAOs) are present in the venom from this genus and they are flavoenzymes that catalyze the oxidation of L-amino acids, producing hydrogen peroxide and ammonia concomitantly. LAAOs have been demonstrating many activities, including cytotoxic, antimicrobial, antitumor, antiparasitic and action on platelet aggregation. The main objectives of this study included the isolation and biochemical characterization of a LAAO from C. d. terrificus, and the evaluation of its leishmanicide potential and the fibroblasts activation. Two protocols were developed to the LAAO isolation from C. d. terrificus venom. First one consists in ionic exchange, gel filtration and hydrophobic interaction chromatographies. The second protocol has a modification in the third step which is affinity chromatography. Reverse-phase chromatography of the isolated LAAO showed high purity degree and the separation of FAD from the enzyme. The LAAO molecular mass was determined by MALDI-TOF mass spectrometry (58,702.196 Da). The structural characterization also included the deduction of primary sequence and the glycosylation site and disulfide bonds determinations through LCMS/ MS with different fragmentation modes (HCD, ETD, EThcD). The primary sequence (498 amino acid residues) was obtained after the LAAO digestion using different proteases. The glycosylation site was located in the Asn361. A SDS-PAGE analysis of reduced LAAO and reduced/deglycosylated LAAO showed that about 5% of the LAAO mass is due to the sugar presence. The disulfide bonds were determined after LAAO digestion at low pH and LC-MS/MS analysis. It showed bonds between Cys10-Cys171 and Cys331-Cys412. The qualitative evaluation of substrate specificity revealed preference for hydrophobic L-amino acids. The specificity order, determined through the kinetics evaluation, is L-Phe>L-Leu>LMet> L-Trp>L-Ile. The LAAO stability was evaluated at different temperatures, timecourse and storage conditions. The enzyme lost its activity over time, and lyophilization and freezing at -20 °C completely inhibited its activity. The thermal stability, evaluated by the Termofluor method, demonstrated that the best LAAO structural stability is achieved at acid pH, different substrate concentrations and at absence of NaCl. Leishmania amazonensis promastigotes were stimulated with LAAO (55 mEAU) and the parasites death was about 30%. The fibroblasts cell line L929 was also stimulated with LAAO, and at low concentration (1.83 mEAU) the cellular viability was close to zero. At lower concentrations, without significative cellular death, the fibroblast activation was evaluated through the nitric oxide e cytokines production, but none of the compounds were released. Therefore, in this study, a LAAO from C. d. terrificus venom was isolated and characterized. Moreover, this enzyme presented leishmanicide against L. amazonensis promastigotes and high cytotoxicity to fibroblasts, without the activation of these cells.

Expressão heteróloga e caracterização bioquímica de uma xilooligossacarídeo oxidase de Thielavia terrestris pertencente à família AA7 / Heterologous expression and biochemical characterization of a xylooligosaccharide oxidase from Thielavia terrestris belonging to AA7 family

Lima, Awana da Silva

30 July 2018

A biomassa vegetal pode ser uma importante fonte de obtenção de diversos produtos a partir da desestruturação de suas frações por um vasto grupo de enzimas. No entanto, a geração de compostos de alto valor agregado a partir da biomassa lignocelulósica requer o desenvolvimento de novos sistemas enzimáticos. Pensando nisso, a prospecção e a caracterização de novas enzimas que estão presentes no secretoma de fungos degradadores da biomassa lignocelulósica tem sido fonte de pesquisa por pesquisadores do mundo todo. O objetivo deste trabalho foi prospectar, clonar e expressar de maneira heteróloga o gene codificante de uma enzima putativa do fungo termofílico T. terrestris em cepas do fungo filamentoso A. nidulans A773 e promover sua caracterização bioquímica e biofísica. O gene da enzima foi amplificado, clonado e inserido no vetor pEXPYR antes de ser inserido no sistema de expressão do A. nidulans. Os transformantes obtidos foram induzidos em meio mínimo de cultivo contendo 3% (m/v) de maltose e 1% (m/v) de glicose em meio estacionário para a produção, seguido da purificação da enzima. Estudos bioquímicos foram realizados para determinar o pH e a temperatura ótima de reação, bem como, a especificidade aos substratos e a determinação dos parâmetros cinéticos. A termoestabilidade da enzima também foi avaliada por estudo de dicroísmo circular (DC). Além disso, foi avaliado o efeito colaborativo entre uma xilanase GH10 e a enzima em estudo na hidrólise do bagaço de cana-de-açúcar pré-tratado. A enzima obtida por expressão heteróloga foi caracterizada como uma xilo-oligossacarídeo oxidase (XylO). Por meio da análise filogenética das sequências de aminoácidos entre a enzima expressa e outras enzimas oxidativas, a XylO foi classificada como pertencente a família das flavoproteínas e subfamília das BBE. A enzima TtXylO demonstrou ter especificidade em oligossacarídeos de C5 apresentando boa atividade enzimática em substratos complexos de xilana. A enzima possui pH ótimo de 5,5 e temperatura ótima de 25 ºC. As análises de DC indicaram temperatura de desnaturação de 62,7 ºC, caracterizando esta enzima como termofílica. Contudo, novos estudos ainda são necessários para avaliar os produtos gerados a partir da oxidação dos diferentes xilo-oligossacarídeos pela XylO e seu potencial uso na indústria. / Plant biomass is an important source for generation of several products obtained from enzymatic cleavage of its fractions by a large group of enzymes. However, the generation of high value compounds from lignocellulosic biomass requires the development of new enzymatic systems. Considering that, prospection and characterization of enzymes present in the biomass-degrading fungi secretome has been a source of study by researchers around the world. The aim of this work was to prospect, clone and heterologously express a putative enzyme encoding gene from the thermophilic fungus T. terrestris in A. nidulans A773 strains and to promote its biochemical and biophysical characterization. The gene was amplified, cloned and inserted into the pEXPYR vector before being inserted into A. nidulans expression system. The transformants were induced by culture in minimal médium containing 3% (w/v) maltose and 1% (w/v) glucose by stationary culture for the production, followed by enzyme purification. Biochemical analyses were performed to determine optimum pH and temperature as well as the substrate specificities and kinetic parameters. The enzyme thermostability was also evaluated by circular dichroism (CD). In addition, the collaborative effect between the enzyme and a GH10 on hydrolys of pre-treated sugarcane bagasse was evaluated. The enzyme obtained by heterologous expression was characterized as a xylooligosaccharide oxidase (XylO). Phylogenetic analysis between amino acid sequences of expressed enzyme and other oxidative enzymes classified XylO as belonging to flavoproteins family and subfamily of BBE. TtXylO has been shown to have specificity on C5 oligosaccharides exhibiting good enzymatic activity on complex xylan substrates. The enzyme has an optimum pH of 5.5 and optimum temperature of 25 ºC. DC analyses showed melting temperature of 62.7 ºC, characterizing this enzyme as thermophilic. In general, further studies are still needed to evaluate the products generated from oxidation of xylooligosaccharides by XylO and their potential use in the industry.

Enzimas oxidativas

Expressão heteróloga

Flavoproteínas

Flavoproteins

Heterologous expression

Oxidative enzymes

Thielavia terrestris

Thielavia terrestris

Xilo-oligômeros

Xilo-oligossacarídeo oxidase

Xylooligomers

Xylooligosaccharide oxidase

Expressão heteróloga e caracterização bioquímica de uma xilooligossacarídeo oxidase de Thielavia terrestris pertencente à família AA7 / Heterologous expression and biochemical characterization of a xylooligosaccharide oxidase from Thielavia terrestris belonging to AA7 family

Awana da Silva Lima

30 July 2018

A biomassa vegetal pode ser uma importante fonte de obtenção de diversos produtos a partir da desestruturação de suas frações por um vasto grupo de enzimas. No entanto, a geração de compostos de alto valor agregado a partir da biomassa lignocelulósica requer o desenvolvimento de novos sistemas enzimáticos. Pensando nisso, a prospecção e a caracterização de novas enzimas que estão presentes no secretoma de fungos degradadores da biomassa lignocelulósica tem sido fonte de pesquisa por pesquisadores do mundo todo. O objetivo deste trabalho foi prospectar, clonar e expressar de maneira heteróloga o gene codificante de uma enzima putativa do fungo termofílico T. terrestris em cepas do fungo filamentoso A. nidulans A773 e promover sua caracterização bioquímica e biofísica. O gene da enzima foi amplificado, clonado e inserido no vetor pEXPYR antes de ser inserido no sistema de expressão do A. nidulans. Os transformantes obtidos foram induzidos em meio mínimo de cultivo contendo 3% (m/v) de maltose e 1% (m/v) de glicose em meio estacionário para a produção, seguido da purificação da enzima. Estudos bioquímicos foram realizados para determinar o pH e a temperatura ótima de reação, bem como, a especificidade aos substratos e a determinação dos parâmetros cinéticos. A termoestabilidade da enzima também foi avaliada por estudo de dicroísmo circular (DC). Além disso, foi avaliado o efeito colaborativo entre uma xilanase GH10 e a enzima em estudo na hidrólise do bagaço de cana-de-açúcar pré-tratado. A enzima obtida por expressão heteróloga foi caracterizada como uma xilo-oligossacarídeo oxidase (XylO). Por meio da análise filogenética das sequências de aminoácidos entre a enzima expressa e outras enzimas oxidativas, a XylO foi classificada como pertencente a família das flavoproteínas e subfamília das BBE. A enzima TtXylO demonstrou ter especificidade em oligossacarídeos de C5 apresentando boa atividade enzimática em substratos complexos de xilana. A enzima possui pH ótimo de 5,5 e temperatura ótima de 25 ºC. As análises de DC indicaram temperatura de desnaturação de 62,7 ºC, caracterizando esta enzima como termofílica. Contudo, novos estudos ainda são necessários para avaliar os produtos gerados a partir da oxidação dos diferentes xilo-oligossacarídeos pela XylO e seu potencial uso na indústria. / Plant biomass is an important source for generation of several products obtained from enzymatic cleavage of its fractions by a large group of enzymes. However, the generation of high value compounds from lignocellulosic biomass requires the development of new enzymatic systems. Considering that, prospection and characterization of enzymes present in the biomass-degrading fungi secretome has been a source of study by researchers around the world. The aim of this work was to prospect, clone and heterologously express a putative enzyme encoding gene from the thermophilic fungus T. terrestris in A. nidulans A773 strains and to promote its biochemical and biophysical characterization. The gene was amplified, cloned and inserted into the pEXPYR vector before being inserted into A. nidulans expression system. The transformants were induced by culture in minimal médium containing 3% (w/v) maltose and 1% (w/v) glucose by stationary culture for the production, followed by enzyme purification. Biochemical analyses were performed to determine optimum pH and temperature as well as the substrate specificities and kinetic parameters. The enzyme thermostability was also evaluated by circular dichroism (CD). In addition, the collaborative effect between the enzyme and a GH10 on hydrolys of pre-treated sugarcane bagasse was evaluated. The enzyme obtained by heterologous expression was characterized as a xylooligosaccharide oxidase (XylO). Phylogenetic analysis between amino acid sequences of expressed enzyme and other oxidative enzymes classified XylO as belonging to flavoproteins family and subfamily of BBE. TtXylO has been shown to have specificity on C5 oligosaccharides exhibiting good enzymatic activity on complex xylan substrates. The enzyme has an optimum pH of 5.5 and optimum temperature of 25 ºC. DC analyses showed melting temperature of 62.7 ºC, characterizing this enzyme as thermophilic. In general, further studies are still needed to evaluate the products generated from oxidation of xylooligosaccharides by XylO and their potential use in the industry.

Enzimas oxidativas

Expressão heteróloga

Flavoproteínas

Thielavia terrestris

Xilo-oligômeros

Xilo-oligossacarídeo oxidase

Flavoproteins

Heterologous expression

Oxidative enzymes

Thielavia terrestris

Xylooligomers

Xylooligosaccharide oxidase

Intracellular calcium, preconditioning and regulation of cellular respiration in heart

Liimatta, E. (Erkki)

05 January 2010

Abstract Heart muscle has to work constantly throughout the life and its energy metabolism is heavily dependent on a continuous supply of oxygen. Energy metabolism must be effectively regulated to meet the demands of changing workloads in different circumstances. If the oxygen supply is interrupted, the function of the heart is easily disturbed and cells injured. Calcium metabolism is of great importance in these pathological conditions. In this thesis respiratory regulation was studied by non-destructive optical methods in mouse heart. The myoglobin-deficient mouse was used as an experimental model to avoid the artefact caused by intracellular myoglobin. Results show that increased consumption of energy and oxygen lead to concomitant reduction of cytochrome aa3 and oxidation of flavoproteins. This finding supports the view that cell respiration in intact myocardium is dominantly regulated at the level of the respiratory chain. The intracellular Ca2+ accumulation during ischemia is one of the major causes of irreversible ischemia-reperfusion injury. Ischemic preconditioning (IPC) has been shown to protect the heart muscle significantly from ischemic damage. In this thesis Ca2+ accumulation during ischemia and reperfusion was studied in perfused rat heart using Fura-2 as a fluorescent Ca2+ indicator. As there is a significant decrease in intracellular pH during prolonged ischemia, the pH-dependency of Fura-2 signal was taken into account. It was found that IPC attenuates Ca2+accumulation during ischemia and this was connected to a decrease in mitochondrial membrane potential. Both IPC and the pharmacologically induced preconditioning with the mitoKATP opener diaxozide were shown to be associated with increased production of superoxide monitored by means of lucigenin chemiluminescence. The superoxide production correlated with the oxidation-reduction state of flavoproteins. We also describe here a method for measuring of intracellular free Ca2+ in mouse heart during ischemia by simultaneous monitoring of Fura-2 and the pH probe BCECF fluorescence by means of dual wavelength excitation of both probes. The paradoxical decrease of Fura-2 fluorescence during ischemia indicating decreasing intracellular Ca2+ concentration was due to the pH effect on the dissociation constant of the Fura-2-Ca2+ complex. When the pH-dependency of Fura-2 was compensated, an extensive Ca2+ accumulation during ischemia was detected. Much of the previous literature on this subject must be re-evaluated because the pH-dependency of intracellular Ca2+ probes has been largely overlooked.

NAD

cell respiration

cytochrome c oxidase

diazoxide

dihydroethidium

flavoproteins

fluorescent probes

intracellular calcium

lucigenin

mitochondria

myocardial ischemia

myoglobin

preconditioning

reperfusion injury

superoxides