Bases genéticas e moleculares da resistência de Spodoptera frugiperda (J.E. Smith, 1797) (Lepidoptera: Noctuidae) a lufenuron / Genetic and molecular basis of Spodoptera frugiperda (J.E. Smith, 1797) (Lepidoptera: Noctuidae) resistance to lufenuron

Antonio Rogério Bezerra do Nascimento

23 January 2014

As bases genéticas e moleculares da resistência de Spodoptera frugiperda (J.E. Smith) a lufenuron foram exploradas no presente estudo. Inicialmente, uma linhagem de S. frugiperda resistente a lufenuron foi selecionada a partir de uma população coletada na cultura do milho na região de Montevidiu-GO com intenso uso desse inseticida. As curvas de concentração-resposta a lufenuron para as linhagens de S. frugiperda suscetível (SUS) e resistente (LUF-R) a lufenuron foram caracterizadas pelo método de bioensaio com tratamento superficial da dieta artificial. As CL50 (I.C. 95%) estimadas para as linhagens SUS e LUF-R foram de 0,23 (0,18 - 0,28) e 210,6 (175,90 - 258,10) ?g de lufenuron.mL-1 respectivamente, com razão de resistência de ? 915 vezes. A partir dos resultados de cruzamentos recíprocos entre as linhagens SUS e LUF-R, concluiu-se que a herança da resistência de S. frugiperda a lufenuron é autossômica e incompletamente recessiva. Os testes de retrocruzamentos da progênie F1 de cruzamentos recíprocos com o parental LUF-R demonstraram um efeito poligênico para a resistência, com a estimativa do número mínimo de segregações independentes entre 1,54 e 1,71, indicando que o número de loci associado à resistência é baixo. Para conhecer o perfil de transcritos de lagartas de S. frugiperda e avaliar o padrão de expressão gênica diferencial entre lagartas da linhagem LUF-R em comparação ao de lagartas da linhagem SUS, buscando identificar o(s) mecanismo(s) de resistência a lufenuron, foram utilizadas novas tecnologias de sequenciamento em larga escala. Para isso, foram utilizados sequenciamentos de quatro bibliotecas de cDNA (plataforma HiScan 1000, Illumina©) obtidas de lagartas de 4º ínstar de S. frugiperda das linhagens LUF-R e SUS, induzidas ou não com lufenuron. O transcritoma foi construído utilizando aproximadamente 19,6 milhões de leituras single-end, o que gerou 18.506 transcritos, com N50 de 996 pb. A pesquisa contra o banco de dados nr (NCBI) proporcionou anotação funcional de 51,1% (9.457) dos transcritos obtidos, grande parte dos alinhamentos apresentaram homologia a insetos, com o maior número deles (45%) se assemelhando aos de Bombyx mori (Lepidoptera: Bombycidae), enquanto 10% se assemelharam a sequências de diversas espécies do gênero Spodoptera (Lepidoptera: Noctuidae), sendo 3% dos alinhamentos obtidos contra sequências de Spodoptera frugiperda. A análise comparativa da expressão gênica entre lagartas de S. frugiperda resistente e suscetível a lufenuron identificou 1.224 transcritos expressos diferencialmente (p <= 0,05, teste t; expressão relativa > 2). Sete destes transcritos foram associados ao metabolismo da cutícula, sendo cinco deles superexpressos na linhagem LUFR. O metabolismo de detoxificação apresentou 48 transcritos expressos diferencialmente, dos quais foram identificados 40 transcritos associados às monooxigenases P450, cinco a glutationa-S-transferase, dois às carboxilesterases e um a esterase. Foi observado que 39 dos 48 transcritos associados ao metabolismo de detoxificação foram superexpressos na linhagem resistente. Este padrão foi confirmado a partir da expressão relativa utilizando \"PCR quantitativa em Tempo Real - qPCR\". Estes resultados representam um importante passo para o entendimento dos mecanismos moleculares da resistência de S. frugiperda a lufenuron, proporcionando, ainda, uma visão mais ampla do perfil de expressão gênica de insetos a inseticidas. / The genetic and molecular basis of resistance to lufenuron in Spodoptera frugiperda (J.E. Smith, 1797) (Lepidoptera: Noctuidae) were exploited in this study. The resistant population of S. frugiperda was selected from a population collected in Montevidiu, Goiás. Initially, a luferunon-resistant strain of S. frugiperda was selected from a population collected in cornfields located in Montevidiu, Goiás State, Brazil, with intense use of this insecticide. The diet surface treatment bioassay was used to characterize the concentration-response to lufenuron in the susceptible (SUS) and resistant (LUF-R) strains of S. frugiperda. The estimated LC50s (95% C.I.) for the SUS and LUF-R strains were 0.23 (0.18 - 0.28) and 210.6 (175.90 - 258.10) ?g of lufenuron.mL-1 respectively, with resistance ratio of ? 915-fold. Based on reciprocal crosses between SUS and LUF-R strains, the inheritance of S. frugiperda resistance to lufenuron was incomplete autosomal recessive. Backcrosses between F1 of the reciprocal crosses and the parental LUF-R revealed a polygenic resistance, with an estimation of the minimum number of resistance genes from 1.54 to 1.71, indicating that the number of loci associated to resistance is low. Then, a new high-throughput cDNA sequencing technologies was explored to characterize the transcriptional profile of larvae of Spodoptera frugiperda, and to compare the differential gene expression between resistant and susceptible strains of S. frugiperda to lufenuron in order to identify the resistance mechanism(s) involved. Four cDNA libraries obtained from fourth instars of the resistant (LUF-R) and the susceptible (SUS) S. frugiperda strains, exposed or not to lufenuron, were sequenced in a HiScan1000® platform (Illumina©). The transcriptome was de novo assembled using nearly 19.6 million single-end reads, leading to 18,506 transcripts with a N50 of 996 bp in length. A Blast search against the non-redundant database available in NCBI allowed the functional annotation of 51.1% (9,457) of the obtained transcripts. Most of these transcripts aligned with insect sequences, and a majority of them (45%) with Bombyx mori (Lepidoptera: Bombycidae). Nearly 10% of the transcripts aligned with species belonging to Spodoptera (Lepidoptera: Noctuidae), with 3% of the alignments matching sequences from Spodoptera frugiperda. Differential gene expression analysis between the resistant and the susceptible strains identified 1,224 differentially expressed transcripts (p <= 0.05, t-test; fold change > 2). Seven of them were associated with the cuticle metabolism, and five out seven were up-regulated in the resistant strain (LUF-R). A large set of transcripts (48) associated with the detoxification metabolism was differentially expressed; 40 P450 monooxygenases, five glutathione-Stransferases, two carboxylesterase and one esterase were identified. Thirty-nine out of these 48 transcripts were up-regulated in the resistant strain. Gene expression data obtained by RNA-Seq analysis was validated by quantitative real time PCR (qPCR) of several selected target transcripts. These results represent an important step toward the understanding of the molecular mechanisms of resistance of S. frugiperda to lufenuron, and provide a broader view on the gene expression profile of insects to insecticides.

Enzimas de detoxificação

Herança da resistência

Inibidores de biossíntese de quitina

Mecanismos de resistência

Transcritoma

Detoxification enzymes

Inheritance of resistance

Inhibitors of chitin biosynthesis

Mechanisms of resistance

Transcriptome

Estudo do metabolismo de fungos utilizando precursores isotopicamente marcados com 13C / Study of the metabolism of fungi using isotopically 13C-labeled precursors

Laura Pavan Ióca

09 October 2015

Este trabalho objetivou o estudo de rotas de formação de metabólitos secundários utilizando precursores isotopicamente marcados com 13C. Os experimentos de crescimento com adição de [1-13C]acetato, [1,2-13C2]acetato e [U-13C315N1]-L-cisteína para o fungo do ambiente marinho Penicillium sp. DRF2 mostrou que as ciclotiocurvularinas são provenientes da rota de formação de policetídeos e pela incorporação de L-cisteína, depois da transformação desta em 3-mercaptopiruvato. Os resultados sugerem que a formação das ciclotiocurvularinas provém de um processo de detoxificação da &alpha;,&beta;-desidrocurvularina. O estudo do metabolismo secundário de Aspergillus sp. DLM3-8, também do ambiente marinho, mostrou que o seu perfil metabólico produzido em experimentos de crescimento sob diferentes condições é constante. Os experimentos de incorporação de precursores isotopicamente marcados com 13C na naftoquinonaimina, produzida por Aspergillus sp. DLM3-8 foram inconclusivos, indicando que outras abordagens experimentais devem ser realizadas para se investigar a biossíntese deste metabólito. / This investigation aimed investigated the formation routes of secondary metabolites using 13C-labelled precursors. Feeding experiments with [1-13C]acetate, [1,2-13C2]acetate and [U-13C315N1]-L-cysteine within the growth medium of the marine-derived fungi Penicillium sp. DRF2 showed that cyclothiocurvularins are derived from polyketides and from the incorporation of a L-cysteine residue, after its transformation into 3-mercaptopyruvate. The results suggest that the formation of cyclothiocurvularins is derived from a detoxification process of&alpha;,&beta;-dehydrocurvularin. Investigation of the secondary metabolism of a marine-derived Aspergillus sp. DLM3-8 indicated a stable metabolic profile under a variety of growth conditions. Feeding experiments with 13C-labelled precursors for the biosynthesis investigation of naphthoquinoneimine were inconclusive, indicating that other methodologies should be envisaged in order to investigate the biosynthesis of this metabolite.

biossíntese

detoxificação

fungo-marinho

precursores marcados

produtos naturais

13C-labeled precursors

biosynthesis

detoxification

marine-derived fungi

natural products

Hidrodescloração catalítica de bifenilas policloradas (PCBs) / Catalytic hydrodechlorination of polychlorinated biphenyls (PCBs)

Luiz Américo da Silva do Vale

29 October 2008

Bifenilas policloradas (PCBs) foram produzidas comercialmente entre 1929 e meados da década de 1980 para propósitos industriais. As mesmas propriedades que despertaram o interesse industrial, tais como: inércia química, alta constante dielétrica, resistência à queima; foram responsáveis pelo espalhamento dos PCBs em todos os compartimentos ambientais, de tal forma que são encontrados em amostras de tecidos adiposos de animais e humanos, leite, sedimentos dentre outras matrizes. Enormes quantidades de PCBs continuam em uso ou estão estocadas a espera de uma destinação final. No presente estudo demonstramos o uso da reação de hidrodescloração catalítica como forma de destruição/destoxificação de bifenilas policloradas. Para tanto, a reação foi estudada em amostras reais de PCBs (óleo dielétrico - Ascarel®), amostras comerciais (Aroclor® 1242 e 1254) e amostra sintética (2,4-diclorobifenila). O estudo se baseia no uso de solventes orgânicos como meio reacional e paládio suportado em carvão ativado como catalisador, devido à sua seletividade para a reação desejada, bem como sua baixa capacidade de hidrogenar compostos aromáticos. xii A condição experimental ótima para a hidrodescloração foi determinada a partir da aplicação de planejamento experimental do tipo Doehlert. Esta condição ótima foi aplicada com sucesso a PCBs contidos em outras matrizes. A cinética da reação é apresentada para o 2,4-diclorobifenila como estudo de caso e uma proposta de mecanismo da reação de hidrodescloração de PCBs é apresentada baseada nos resultados experimentais. / Polychlorinated biphenyls (PCBs) were produced between 1929 and the 1980s for industrial applications. The same properties that make it a chemical of interest for industrial applications, such as: chemical inertness, high dielectric constant, fire resistance; were responsible for the widespreading of PCBs over all enviornmental compartments. They can be found in samples of fat tissues of humans and animals, milk, sediments, among other matrices. Enormous quantities of PCBs are still in use or stocked waiting for a final destination. In the present study, we have shown the use of catalytic hydrodechlorination as an alternative for the destruction/detoxification of polychlorinated biphenyls. For this, the reaction was studied in real samples of PCBs (dielectric oil - Ascarel®), commercial samples (Aroclor® 1242 e 1254) and pure chlorinated biphenyls (2,4-dichlorobiphenyl). The study is based in the use of organic solvents as reactional media and palladium supported in activated carbon as catalyst, due to its selectivity for the desired reaction and to its low capacity to hydrogenate aromatic compounds. xiv The optimal hydrodechlorination condition was determined through the application of a Doehlert experimental planning. This optimal condition was applied with success to PCBs contained in other matrices. The reaction kinetics for 2,4-dichlorobiphenyl was presented as a case study and a mechanistic proposal was presented for the hydrodechlorination of PCBs based on these experimental conditions.

Bifenilas policloradas

Compostos orgânicos

Degradação

Destoxificação

Físico-química

Hidrodescloração

PCBs

Degradation

Detoxification

Hydrodechlorination

Organic compounds

PCBs

Physical chemistry

Polychlorinated biphenyls

Comportement "in vitro" et "in vivo" de verres composites poreux : assimilation osseuse, explorations physiologiques et physico-chimiques / Behavior "in vitro" and "in vivo" of porous composite glasses : bone assimilation, physiological and physicochemical explorations

Boulila, Salha

30 May 2016

L'application des biomatériaux est de plus en plus élargie. Le progrès médical suggère l'utilisation des biomatériaux (verres bioactifs, apatites,..) en tant qu'implants selon le besoin de l'organisme. L'objectif de notre travail est de mettre en évidence l'influence biologique des molécules organiques (bisphosphonates, biopolymères et antibiotiques) incorporés dans des matrices de verres bioactifs. De même, notre étude vise à optimiser les meilleures techniques de synthèse et d'association des verres bioactifs à ces molécules. La détoxification des rats mâles de souche « Wistar » exposés au chlorure de nickel par une apatite synthétique a aussi fait l'objet de ce travail. Suite à une perte osseuse provoquée, nous avons démontré que l'utilisation des antibiotiques associés à des verres bioactifs en tant qu'implants osseux, chez des rattes ovariectomisées, permet d'éliminer certains effets indésirables par voie systémique. Ceci a été mis en évidence par l'évaluation des paramètres biochimiques et histologiques du foie et du rein. Aucune variation significative en comparaison avec ceux du témoin négatif n'a été révélée. L'étude in vitro a montré d'une part que l'introduction du Chitosan et surtout de l'antibiotique dans la matrice vitreuse font augmenter l'activité antibactérienne in vitro. Cette étude in vitro a montré d'autre part que la Ciprofloxacine induit un effet néfaste sur les cellules ostéoblastiques et endothéliales. Cet effet est local lorsqu'il s'agit des expérimentations in vivo. Ceci est mis en évidence lors des évaluations du statut oxydant. Les marqueurs du remodelage osseux, l'histologie de l'os et les paramètres physico-chimiques montrent l'effet retardateur de cet antibiotique sur la dissolution de l'implant et par conséquent sur son ossification. La synthèse par le procédé de sol-gel provoque une bioactivité plus importante que celle obtenue par fusion. La bioactivité des verres bioactifs étudiés diffère selon la molécule introduite. Celle-ci est réduite dans le cas de l'association du Clodronate et de Ciprofloxacine in vitro et in vivo. Alors que, le Polyvinyl Alcohol et surtout le Chitosan font modifier la cinétique de cette bioactivité in vivo. Concernant l'hydroxyapatite, nous avons essayé d'explorer son effet détoxifiant chez des rats reçevant le chlorure de nickel. Nos résultats ont montré que le nickel induit un stress oxydant au niveau du foie, du rein, de la rate et du culot érythrocytaire. Des troubles physiologiques ont été observés chez les rats exposés au nickel. Cependant, l'implantation de l'hydroxyapatite protège les rats intoxiqués par le nickel contre ses effets toxiques en diminuant l'état du stress. Le biomatériau utilisé s'avère efficace pour corriger l'équilibre ferrique et phosphocalcique, protéger les fonctions rénale et hépatique, abaisser le taux du nickel osseux et corriger l'anémie. / The application of biomaterials is increasingly widened. Medical progress suggest the use of biomaterials (bioactive glasses, apatites,..) as implants according to the need of the body. The aim of our work is to highlight the biological influence of organic molecules (bisphosphonates, biopolymers and antibiotics) incorporated into matrix of bioactive glasses. Similarly, our study aims to optimize the best synthesis and combination technique of bioactive glasses to these molecules. The detoxification of male rats strain "Wistar" exposed to nickel chloride by a synthetic apatite also has been the object of this work. Following the bone loss induced, we have demonstrated that the use of antibiotics associated with bioactive glass as bone implants, in ovariectomised rats, eliminates some adverse effects systemic. This has been highlighted by the evaluation of biochemical and histological parameters of liver and kidney. Any significant changes in comparison with those of the negative control was revealed. The in vitro study showed in the one hand that the introduction of Chitosan and especially of the antibiotic in the glass matrix can increase antibacterial activity. This in vitro study showed in the other hand that the Ciprofloxacin induces a negative effect on osteoblastic and endothelial cells. This effect is local when it has been an in vivo experiments. This is highlighted by the oxidative status evaluation. Markers of bone turnover, bone histology and physicochemical parameters show the retarding effect of this antibiotic on the dissolution of the implant and consequently on its bone formation. Synthesis by sol-gel method causes a more important bioactivity than melting. The bioactivity of elaborated bioactives glasses will differ depending on the molecule introduced. It is reduced in the case of combination of Clodronate and Ciprofloxacin in vitro and in vivo. While, Polyvinyl Alcohol and especially Chitosan modify the kinetic of the bioactivity in vivo. Concerning the hydroxyapatite, we tried to explore its detoxifying effect in rats receiving nickel chloride. Our results showed that nickel induces an oxidative stress in the liver, kidney, spleen and red cell pellet. Physiological disorders were observed in rats exposed to nickel. However, implantation of hydroxyapatite protects rats intoxicated by nickel against its toxic effects by decreasing the stress status. The used biomaterial is effective to correct ferric phosphate balance, protect kidney and liver function, reduce level of bone nickel and correct anemia.

Bioactivité

Chitosane

Ciprofloxacine

Détoxification

Hydroxyapatite

Alcool polyvinylique

Verre bioactif

Bioactivity

Bioactive glass

Chitosan

Ciprofloxacin

Detoxification

Hydroxyapatite

Polyvinyl Alcohol

Détoxication des mycotoxines par les plantes : analyse de l'interaction entre Brachypodium distachyon et Fusarium graminearum / Detoxification of mycotoxins by plants : analysis of the interaction between Brachypodium distachyon and Fusarium graminearum

Pasquet, Jean-Claude

21 November 2014

La fusariose des épis est l’une des principales maladies des céréales, majoritairement causée par le champignon pathogène et toxinogène, Fusarium graminearum (Fg). Lors son développement in planta, le champignon produit des mycotoxines dommageables pour la santé humaine et animale, dont le déoxynivalénol (DON). De nombreux loci à effet quantitatif sur la résistance à Fg ont été identifiés chez le blé tendre. Certains d’entre eux ont été corrélés à la capacité à détoxifier le DON, en particulier par glucosylation sous l’action d’UDP-glucosyltransférases (UGT). Une UGT d’orge impliquée dans la conjugaison du DON a été identifiée en système hétérologue. Brachypodium distachyon (Bd) a récemment émergé comme modèle d’étude pour les céréales. Ce travail à l’aide d’approches transcriptomique et métabolomique a mis en évidence que lors de l’interaction avec Fg, Bd met en place des réponses macroscopiques, moléculaires et métaboliques similaires à celles connues chez le blé et l’orge. La recherche d’UGTs candidates capables de conjuguer le DON en DON-3-O-glucoside (D3G) chez Bd a permis l’identification d’un candidat. L’analyse fonctionnelle du gène correspondant a été conduite par des approches de mutagenèse et de surexpression. Ceci a montré une sensibilité accrue des lignées mutantes à la toxine et à l’agent pathogène. A l’inverse les lignées surexpresseurs ont montré une tolérance et résistance quantitative à la toxine et l’agent pathogène. Ces résultats ont été corrélés par la détection in planta de DON et D3G, dans des proportions variables selon les lignées. Ces résultats démontrent le rôle majeur que joue la glucosylation du DON dans l’établissement de la résistance observée chez Bd en réponse à Fg. / Fusarium head blight is a major cereal disease, mostly caused by the pathogenic and toxin-producing fungus, Fusarium graminearum (Fg). During its development in planta, the fungus produces mycotoxins harmful to human and animal health, including deoxynivalenol (DON). Many quantitative trait loci exhibiting an effect on resistance to Fg have been identified in wheat. Some of them were correlated with the ability to detoxify DON, particularly by glucosylation by UDP-glycosyltransferases (UGT). A barley UGT involved in the conjugation of DON was identified in a heterologous system. Brachypodium distachyon (Bd) has recently emerged as a model species for cereals. Using transcriptomic and metabolomic approaches, we show that when interacting with Fg, Bd implements macroscopic, molecular and metabolic responses similar to those known in wheat and barley. The search for UGT candidates able to conjugate DON into DON-3-O-glucoside (D3G) in Bd resulted in the identification of the Bradi5g03300 gene. Functional analyses of this gene showed increased sensitivity of the mutant lines to the toxin and to the pathogen. Conversely the overexpressor lines showed a tolerance to the toxin and quantitative resistance to Fg. These results were correlated with the detection of differential amounts of DON and D3G in the different lines. These results demonstrate the important role of DON glucosylation in the resistance establishment of Bd observed in response to Fg.

Fusariose des épis

Brachypodium distachyon

Fusarium graminearum

Déoxynivalénol

UDP-glycosyltransférase

Détoxication

FHB

Brachypodium distachyon

Fusarium graminearum

Deoxynivalenol

UDP-glycosyltransferase

Detoxification

Bases moléculaires de la résistance métabolique au néonicotinoïde imidaclopride chez le moustique Aedes aegypti / Molecular basis of metabolic resistance to the neonicotinoid imidacloprid in Aedes aegypti.

Riaz, Muhammad Asam

18 November 2011

Résumé trop long / Mosquitoes transmit several human and animal diseases and their control represents a public health challenge worldwide. In most tropical countries, efficient control of mosquitoes relies on the use of chemical insecticides targeting adults or larvae. However, resistance to the four main classes of chemical insecticides has been reported worldwide and threatens vector control programs. In this context, there is an urgent need to find alternatives to conventional insecticides used in vector control. In this thesis, I explored the potential use of the neonicotinoid insecticide imidacloprid for mosquito control, focusing on the identification of metabolic resistance mechanisms, cross-resistance with other insecticides and the impact of environmental pollutants on imidacloprid tolerance. The mosquito Aedes aegypti was used as a model species for this research work. Basal tolerance of Ae. aegypti to imidacloprid was first evaluated at the larval and adult stages. Effects of a larval exposure across a single generation to a sub-lethal dose of imidacloprid were then investigated at the toxicological and molecular levels using transcriptome profiling. Short sub-lethal exposures were also used to identify potential cross-responses between imidacloprid, other chemical insecticides and anthropogenic pollutants. Long-term adaptive response of Ae. aegypti to imidacloprid was then investigated across several generations by selecting an insecticide-susceptible strain (Bora-Bora strain) with imidacloprid at the larval stage for 14 generations in the laboratory. Such artificial selection allowed obtaining the Imida-R strain. This strain showed an increased resistance to imidacloprid in larvae while no significant resistance was measured in adults. Resistance mechanisms were then investigated using various approaches including the use of detoxification enzyme inhibitors, biochemical assays and transcriptome profiling with DNA microarray and massive mRNA sequencing. Several protein families potentially involved in resistance were identified including detoxifications enzymes and cuticle proteins. Among the formers, 8 cytochrome P450s and 1 glutathione S-transferase appears as good candidates for a role in imidacloprid metabolism. The role of P450s in the elevated resistance of the Imida-R strain was confirmed by comparative P450-dependent in vitro metabolism assays conducted on microsomal fractions of the susceptible and Imida-R strains. At the gene level, substrate binding modeling allowed restricting the panel of P450 candidates. Meantime, heterologous expression of one P450 was performed and its ability to metabolize imidacloprid confirmed. Bioassay with other insecticides revealed potential cross-resistance of the Imida-R at the larval stage to other neonicotinoids but also to an insect growth inhibitor and in a lesser extent to DDT, confirming the probable role of detoxification enzymes. Relaxing the selection pressure of the Imida-R strain for few generations led to a rapid decrease of resistance, suggesting a cost of resistance mechanisms. Comparing the inducibility of candidate detoxification genes by imidacloprid in susceptible and resistant strains revealed a higher induction of these genes in the resistant strain, suggesting the selection of both a higher constitutive expression but also a greater phenotypic plasticity of these enzymes in the Imida-R strain. Finally, the potential role of cuticle protein in resistance was preliminary investigated by exposing larvae to a chitin synthesis inhibitor before bioassays. Overall, although this research work requires additional functional validation experiments, these data provide a better understanding of imidacloprid resistance mechanisms in mosquitoes and its potential use as an alternative to conventional insecticides in vector control.

Aedes aegypti

Résistance metabolique

Imidaclopride

Transcriptomique

Enzyme de detoxication

Validation fonctionnelle

Aedes aegypti

Metabolic resistance

Imidacloprid

Transcriptomic

Detoxification enzymes

Functional validation

Surface-decorated macadamia (Macadamia sp.) nutshells for the detoxification of chromium(VI) polluted water.

Moyo, Malvin

02 1900

Ph. D. (Department of Chemistry, Faculty of Applied and Computer Sciences), Vaal University of Technology. / Driven by the need for sustainably sourced catalysts and the use of reaction systems that generate environmentally benign by-products, the present study aimed to deposit stable, dispersed palladium (Pd) nanoparticles on the modified surfaces of granular macadamia nutshell (MNS) biomass for catalytic reduction of hexavalent chromium [Cr(VI)] to trivalent chromium [Cr(III)]. Through wet impregnation with Pd(II) ions and subsequent hydrazinemediated reduction to Pd(0), Pd nanoparticles were embedded in a scaffold of polyethyleneimine grafted on bleached MNS previously coated with a chemically bound layer of polyglycidyl methacrylate. Visualization and imagery from scanning electron microscopy showed the formation of different layers of the polymeric coating and dispersed palladium resulting from surface modification and palladium nanoparticle synthesis, respectively. X-ray diffraction, energy-dispersive X-ray spectroscopic, and X-ray photoelectron spectroscopic analysis confirmed the formation of Pd on the modified MNS surface. An estimate of 5.0 nm for crystallite size was calculated by application of the Scherrer equation. The composite material, denoted Pd@PEI-MNS, exhibited catalytic activity in formic acidmediated Cr(VI) reduction. Through a one-factor-at-a-time experimental design, the activity of the Pd@PEI-MNS was illustrated to be dependent on solution pH; initial Cr(VI) concentration, initial formic acid concentration, and presence of competing anions; Pd@PEI-MNS dose; and temperature. Subsequent modeling of the Cr(VI) removal process by response surface methodology revealed that the most influential factor was Pd@PEI-MNS dose followed by temperature and formic acid concentration. The influence of initial Cr(VI) concentration, was surpassed by the dose-temperature and dose-formic acid concentration interactive effects. Elucidation of the Cr(VI) removal mechanism by XPS and FTIR demonstrated the active participation of surface –CH2OH functional groups, the bulk of which originated from the reduction of esters of the grafted ligands. Replacement of formic acid with hydrochloric acid in the reaction medium limited the Cr(VI) removal process to adsorption with non-extensive redox reaction with –CH2OH groups. Where the redox reactions converted formic acid to carbon dioxide, the –CH2OH groups were converted to –COO– groups.

Macadamia nutshells

Detoxification of chromium

Polluted water

Dissertations, Academic -- South Africa.

Nanostructured materials.

Water -- Pollution.

Identification of a putative <i>metK</i> selenite resistance gene in <i>Stenotrophomonas maltophilia</i> OR02

Marinelli, Zachary A.

January 2017

No description available.

Biology

Environmental Science

Genetics

Microbiology

Molecular Biology

Stenotrophomonas maltophilia

metK

S-adenosylmethionine

selenite resistance

selenite detoxification

bioremediation

A new perspective on the importance of glycine N-acyltransferase in the detoxification of benzoic acid / Christoffel Petrus Stephanus Badenhorst

Badenhorst, Christoffel Petrus Stephanus

January 2014

Despite being the first biochemical reaction to be discovered, the glycine conjugation pathway remains poorly characterised. It has generally been assumed that glycine conjugation serves to increase the water solubility of organic acids, such as benzoic acid and isovaleric acid, in order to facilitate urinary excretion of these compounds. However, it was recently suggested that the conjugation of glycine to benzoate should be viewed as a neuroregulatory process that prevents the accumulation of glycine, a neurotransmitter, to toxic levels. The true importance of glycine conjugation in metabolism is therefore not well understood. However, no genetic defect of glycine conjugation has ever been reported. This seems to suggest that glycine conjugation is a fundamentally important metabolic process, whatever its function may be. Therefore, a major objective of this thesis was to develop a deeper understanding of glycine conjugation and its metabolic significance. A review of the literature on GLYAT and glycine conjugation suggested that the primary purpose of glycine conjugation is indeed to detoxify benzoate and other aromatic acids of dietary origin. However, the commonly held assumption, that glycine conjugation increases the water solubility of aromatic acids in order to facilitate urinary excretion, seems to be incorrect. A better explanation for the detoxification of benzoate by means of glycine conjugation is based on hydrophilicity, not water solubility. Because of its lipophilic nature, benzoic acid is capable of passively diffusing across the mitochondrial inner membrane into the matrix space, where it accumulates due to the pH gradient over the inner membrane. Although benzoate can be exported from the matrix by organic anion transporters, this process would likely be futile because benzoic acid can simply diffuse back into the matrix. Hippurate, however, is significantly less lipophilic and therefore less capable of diffusing into the matrix. It is therefore not transport out of the mitochondrial matrix that is facilitated by glycine conjugation, but rather the ability of the glycine conjugates to re-enter the matrix that is decreased. The conversion of benzoate to hippurate is a two-step process. First, benzoate is activated by an ATP-dependent acid:CoA ligase (ACSM2A) to form the more reactive benzoyl-CoA. Second, glycine N-acyltransferase (GLYAT) catalyses the formation of hippurate and CoASH from benzoyl-CoA and glycine. Another major objective of this thesis was to gain a better understanding of the structure and function of the GLYAT enzyme. While the substrate selectivity and enzyme kinetics of GLYAT have been investigated to some extent, almost nothing has been published on the structure, active site, or catalytic mechanism of GLYAT. Furthermore, while interindividual variation in the rate of glycine conjugation has been reported by several researchers, it is not known if, or how, genetic variation in the human GLYAT gene contributes to this interindividual variation. To address these issues, systems for the bacterial expression of recombinant bovine GLYAT and recombinant human GLYAT were developed. Because no crystal structure of GLYAT has been reported, homology modelling was used to generate a molecular model of bovine GLYAT. By comparing the molecular model to other acyltransferases for which the catalytic residues were known, Glu227 of bovine GLYAT was identified as a potential catalytic residue. Site directed mutagenesis was used to generate an E227Q mutant recombinant bovine GLYAT lacking the proposed catalytic residue. Characterisation of this mutant suggested that Glu227 was indeed the catalytic residue, and the GLYAT catalytic mechanism was elucidated. The molecular model was also used to identify Asn131 of bovine GLYAT as a potential active site residue. Site-directed mutagenesis was used to generate an N131C mutant, which was sensitive to inhibition by the sulfhydryl reagent DTNB. This suggests that the Asn131 residue of bovine GLYAT may be situated in the active site of bovine GLYAT, but more work is needed to confirm this result. Finally, site-directed mutagenesis was used to generate variants of recombinant human GLYAT corresponding to six of the known SNPs in the human GLYAT gene. Expression and characterisation of the recombinant human GLYAT variants revealed that the enzyme activity and KM (benzoyl-CoA) parameter of the recombinant human GLYAT were influenced by SNPs in the human GLYAT gene. This suggests that genetic variation in the human GLYAT gene could partly explain the interindividual variation in the rate of glycine conjugation observed in humans. Interestingly, the SNPs that negatively influenced enzyme activity also had low allele frequencies, suggesting that there may be some selective advantage to having high GLYAT activity. / PhD (Biochemistry), North-West University, Potchefstroom Campus, 2014

Glycine

Conjugation

Deportation

Detoxification

Coenzyme A

Sequestration

GLYAT

Glycine N-acyltransferase

Benzoic acid

Hippuric acid

Glisien

Konjugering

Deportasie

Detoksikasie

Koënsiem A

Sekwestrasie

Glisien N-asieltransferase

Bensoësuur

Hippuursuur

Voies de la glycosylation et carcinome hépatocellulaire

Borentain, Patrick

07 December 2012

La glycosylation est un processus enzymatique permettant l'ajout de sucres à des composés (sucres, lipides ou protides), modifiant ainsi leurs propriétés. La glycosylation est impliquée dans la détoxification des xénobiotiques et des variations d'activité des enzymes responsables ont été identifiées comme facteur de risque de cancer en particulier dans les organes exposés aux xénobiotiques. Dans la première partie de notre travail nous étudions l'impact des polymorphismes génétiques de certaines enzymes responsables de la détoxification (UGT1A7, GST et XRCC1) sur le risque de carcinome hépatocellulaire. Nous montrons que la combinaison de certains polymorphismes génétiques peut entraîner une augmentation du risque de CHC. Des modifications d'expression des glycoprotéines de surface ont été observées dans les cellules cancéreuses jouant un rôle dans leurs interactions avec le microenvironnement. Dans la seconde partie, nous étudions l'effet de l'inhibition des interactions des cellules de CHC/cellules endothéliales par le blocage du couple sialyl Lewis x/E-sélectine sur la croissance tumorale. Ce blocage est obtenu, d'une part par transfert du gène de la Fucosyl-transferase I, inhibant l'expression de sLex à la surface des cellules de CHC, et d'autre part, par utilisation de cimétidine ou d'amiloride permettant une inhibition de l'expression de la E-sélectine par les cellules endothéliales. Nous obtenons une inhibition de la croissance tumorale in vivo par blocage de la néoangiogénèse. Ces travaux permettent donc d'identifier des facteurs de risque génétiques de CHC et d'envisager une autre voie de traitement du CHC. / Glycosylation is an enzymatic process that consists of the addition of glycosyl groups to compounds (sugars, lipids or proteins), thus modifying their properties. Glycosylation is involved in the detoxification of xenobiotics and variations in activity of enzymes responsible have been identified as a potential risk factor for cancer in particular in organs in contact with the external environment. In the first part of our work we study the impact of polymorphisms of detoxification enzyme (UGT1A7, GST and XRCC1) on the risk of hepatocellular carcinoma. We show that the combination of genetic polymorphisms of such enzymes may increase the risk of HCC. Modifications in the expression of surface glycoproteins have been observed in cancer cells and play a role in their interactions with the tumoral microenvironment. In the second part, we study the effect of inhibition of interactions of HCC cells / endothelial cells on tumor growth by blocking the interaction between sialyl Lewis x and E-selectin. First, we achieved the inhibition of the expression of sLex on the surface of HCC cells by introducing fucosyl transferase- I gene in HCC cells. In a second part of our work we used cimetidine and amiloride to inhibit the expression of E-selectin by endothelial cells. This approach resulted in inhibition of HCC cells / endothelial cells interaction and thereby tumor growth inhibition in vivo. This effect is mediated by an inhibition of tumor neoangiogenesis. This work therefore identifies genetic risk factors for HCC and allows considering another way of treatment of HCC.

Carcinome hépatocellulaire

Glycosylation

Enzymes de détoxification

Polymorphismes génétiques

Sélectines

Sialyl Lewis

Néoangiogénèse

Amiloride

Cimétidine

Hepatocellular carcinoma

Glycosylation

Detoxification enzymes

Genetic polymorphisms

Selectins

Sialyl Lewis

Neo angiogenesis

Amiloride

Cimetidine