Multifunctional and Stimuli-Responsive Polymersomes for Biomedical Applications

Iyisan, Banu

18 November 2016

The demand for multifunctional nanocontainers possessing both recognition ability and responsive nature is increasing greatly because of their high potential in various biomedical applications. The engineering of such smart nanovesicles is useful to enhance the efficiency of many therapeutic and diagnostic tools that have the applicability in targeted drug delivery systems as well as designing sensing devices or conducting selective reactions as nanoreactors in the scope of nanobiotechnology. For this purpose, this study demonstrates the formation of multifunctional and stimuli-responsive polymersomes comprising various abilities including pH and light sensitivity as well as many reactive groups with sufficient accessibility to be used as smart and recognitive nanocontainers. The fabrication included several steps starting from the synthesis of azide and adamantane terminated block copolymers, which were then self-assembled to prepare the polymersomes with the corresponding functional groups for the subsequent post-conjugations at the vesicle periphery. The accessible and sufficiently reactive groups were quantitatively proven when UV and IR cleavable NVOC protected amino groups as well as β-cyclodextrin molecules were conjugated to the pre-formed polymersomes through click chemistry and strong host-guest complexations. The gained light responsivity with the aid of successful NVOC attachment enabled further selective photochemical reactions triggered either by UV or NIR light leading to liberated amine groups on the polymersome surface. Therein, these released amino groups were further conjugated with a model fluorescent compound as mimicking the attachment of biorecognition elements to see the direct picture of the applicability. To realize this concept in a more localized and selective way as well as to avoid the possible side effects of UV light, the NIR-light induced photochemical reactions and further dye coupling were performed when polymersomes were immobilized onto solid substrates. This fixation was achieved by adapting the host-guest chemistry into this part and conjugating the adamantane decorated polymersomes onto β-cyclodextrin coated substrates. Several investigations including adhesion behavior, pH sensitivity and mechanical properties of the established multifunctional polymersomes under liquid phase have been performed. It has been found that the polymersome shape is highly dependent on the attractive forces of the substrate and needs to be optimized to avoid the flattening of the vesicles. For these optimization steps, different conditions were investigated including the decrease of cyclodextrin amount and additional surface passivation with PEG molecules on the solid substrates. Besides, the calculated Young’s and bending modulus of the polymersome membrane from AFM measurements showed a robust but still flexible “breathable” membrane which is an important criterion for the applicability of these smart and stable vesicles. In addition, the hosting ability as well as diffusion limits and sufficient membrane permeability of the polymersomes were observed by encapsulating gold nanoparticles as a smart cargo and doxorubicin molecules as an anticancer drug. In conclusion, the established multifunctional polymersomes are highly versatile and thus present new opportunities in the design of targeted and selective recognition systems which is highly interesting for various applications including development of microsystem devices, design of chemo/biosensors, and also for conducting enhanced, combined therapy in the field of drug delivery.

info:eu-repo/classification/ddc/540

ddc:540

Molecular Engineering of Organic Photosensitizes for P-type Dye-Sensitized Solar Cells and the Immobilization of Molecular Catalyst for the Hydrogen Evolution Reaction

Beauchamp, Damian Richard

01 September 2016

No description available.

Chemistry

Energy

Gases

Organic Chemistry

Polymers

Polymer Chemistry

Surface-Engineered Magnetic Nanoparticles for Sample Preparation and Analysis of Proteins and Peptides

Pirani, Parisa

15 May 2015

Sample preparation as an essential step in mass spectrometry-based analysis, plays a critical role in proteomics studies. Magnetic nanoparticles (MNPs) have been widely used in protein and peptide sample preparation due to their magnetic properties, biocompatibility, easy synthesis and surface functionalization. MNPs loaded with analyte or analyte modification reagent can be easily separated from the reaction medium by an externally applied magnetic field. The small size of MNPs provides high analyte loading and extraction capacity. Additionally, MNP can be decorated with different functional groups to achieve selective modification or extraction of analyte. In this study we have utilized silica coated iron oxide magnetic nanoparticles (Fe3O4@SiO2 MNPs) for protein and peptide sample preparation. Fluorescence-based methods were utilized for quantitative and qualitative characterization of N-hydrosucccinimidyl (NHS) ester groups on the surface of Fe3O4@SiO2 MNPs. Fluorophore Dansylcadaverine was conjugated to NHS ester functional groups. Fluorometric measurement of cleaved dansylcadaveine was employed to determine the number of NHS ester groups per MNPs that was found to be 2.6 × 102 and 3.4 × 103for 20 nm and 100 nm Fe3O4@SiO2 MNPrespectively. The efficiency of labeling native bovine serum albumin (BSA) by NHS ester coated Fe3O4@SiO2 MNPs was also explored in terms of maximizing the number of MNPs conjugated per BSA molecule or maximizing the number of BSA molecules conjugated per each MNP. Lysine residues of apolipoprotein B-100 (apoB-100) on the surface of intact human low density lipoprotein (LDL) were labeled by NHS ester modified Fe3O4@SiO2 MNPs in aqueous solvents at room temperature. The MNP labeledapoB-100 was treated by SDS to remove lipids and then digested using trypsin. Tryptic peptides were eluted from MNPs by cleaving disulfide linkage between labeled peptides and MNPs. LC-MS/MS analysis found 28 peptides containing labeled lysine residues. These lysine residues should be on the solvent exposed surface of LDL since the large size of MNPs prevents contact of the labeling reagent to those lysines embedded inside the structure of LDL. TCEP- immobilized Fe3O4@SiO2MNPs were fabricated and utilized for reduction of disulfide bonds in bovine pancreas insulin and two different cyclic peptides. Disulfide bonds were efficiently cleaved at room temperature in both organic and aqueous solvents confirmed by LC-MS/MS analysis of reduced/alkylated protein and peptides. Disulfide reduction and alkylation reactions was performed in one step and the reducing agent was simply separated from peptide and protein solution by magnetic separation.

N-hydrosucccinimidyl (NHS) ester

fluorometric quantification

protein labeling efficiency

apolipoprotein B-100 (apoB-100)

low density lipoprotein (LDL)

surface exposed lysines

disulfide bond

TCEP- immobilized Fe3O4@SiO2 MNPs

LC-MS/MS

Analytical Chemistry

Chemistry

Influência dos nutrientes nitrogênio e fósforo na degradação anaeróbia do pentaclorofenol e na diversidade microbiana dos sedimentos enriquecidos do Estuário de Santos-São Vicente, Estado de São Paulo / Influence of nitrogen and phosphorus nutrients on the anaerobic degradation of pentachlorophenol and on the natural microbial diversity of sediments from the Santos-São Vicente estuary, state of São Paulo, Brazil

Brucha, Gunther

01 October 2007

A pesquisa que ora se apresenta visou estabelecer as condições nutricionais adequadas para o uso do sedimento do estuário de Santos - São Vicente do Estado de São Paulo, como inóculo no reator anaeróbio horizontal de leito fixo (RAHLF) no processo de degradação anaeróbia do pentaclorofenol (PCP) em busca da aplicação da tecnologia em escala real, assim como identificar grupos microbianos envolvidos no processo. Para tanto, sedimento do estuário de Santos-São Vicente, com características metanogênicas foi utilizado. Os microrganismos provenientes do sedimento estuarino foram enriquecidos sob condições metanogênicas e halofílicas, visando a utilização do sedimento como inoculo nos ensaios nutricionais e na operação dos reatores do tipo RAHLF. O meio de cultivo salino Biota, suplementado com glicose e formiato, foi utilizado para o desenvolvimento da comunidade microbiana metanogênica halofílica. Testes de degradação do PCP foram realizados previamente sob diferentes concentrações de nitrogênio e fósforo, com vistas a uma melhor compreensão da relação N:P adequada para o processo anaeróbio. Os resultados provenientes do acompanhamento da diversidade microbiana do domínio Bacteria nas diferentes relações testadas indicaram a seleção de distintas comunidades microbianas, resultando em diferentes velocidades de degradação do PCP. A relação N:P de 10:1 foi a que apresentou melhores resultados, pois além da rápida degradação do PCP quando comparada com as outras relações, apresentou a maior diversidade de microrganismos. Posteriormente, o sistema RAHLF foi operado com vazão média afluente de aproximadamente 44 mL/hora, com meio mineral salino Biota (DQO:N:P de 1000:130:45) para R1 e com a alteração para relação DQO:N:P de 1000:10:1 para R2. Duas diferentes estratégias foram adotadas para partida dos reatores. Para R1, optou-se por acrescentar PCP na concentração inicial de 10,0 mg/L, durante 110 dias causando desestabilização da metanogênese e acúmulo de PCP, requerendo intervenção para recuperação do reator pelo período de 90 dias. Na partida do RAHLF 2, optou-se pelo aumento gradual de concentração do PCP de 0,5 mg/L a 12,0 mg/L durante 52 dias. Após estabelecimento da metanogêsenese, R1 foi alimentado durante 270 dias com 5,0 mg PCP/L, durante 41 dias com 8,0 mg/L e 59 dias com 12 mg/L. O balanço de massa no reator RAHLF 1 demonstrou que 0,52% do PCP adicionado saiu no efluente e que não ocorreu adsorção no sistema. 22,34 mg de 2,4,6 TCP, intermediário da degradação do PCP, ficaram adsorvidos na biopartícula. Os resultados das análises de diversidade microbiana apontaram para mudança da comunidade microbiana do domínio Bacteria ao longo do período operacional e morfologias de bacilos fluorescentes semelhantes a Methanobacterium sp estiveram presentes no reator. No RAHLF 2, a degradação do PCP foi de 100%, até a concentração de 10,0 mg/L. No final da fase com 12,0 mg PCP/L, a concentração no efluente foi de 1,4 mg PCP/L, com eficiência média de remoção de 93,2 \'+ ou -\' 5,5%. 2,4,6 TCP foi o intermediário principal no efluente do reator. 4,06% do PCP adicionado ao sistema foram encontradas no efluente e 15,94% ficaram adsorvidas nas biopartículas do reator. Portanto, considera-se que 80% do PCP adicionado sofreu degradação anaeróbia microbiana. A presença dos microrganismos Methanocalcullus e Methanosaeta na fase final de operação do RAHLF 2 e determinadas no sedimento coletado foi considerada fundamental para manter estabilidade do reator. Essa descoberta contribui com informações sobre a real diversidade microbiana de ecossistemas tropicais, sobretudo em habitats anaeróbios, bem como sobre as condições nutricionais e os procedimentos necessários para confiná-la em reatores e usá-la em processos de biorremediação. / The research presented here aimed to determine the optimal nutritional conditions for the use of sediment from the Santos-São Vicente estuary in the state of São Paulo, Brazil, as an inoculum for a horizontal-flow anaerobic immobilized biomass reactor (HAIB) applied to the anaerobic degradation of pentachlorophenol (PCP), seeking to apply the technology on the real scale and to identify the microbial groups involved in the process. To this end, sediment with methanogenic characteristics from the Santos-São Vicente estuary was used. The microorganisms from the estuarine sediment were enriched under methanogenic and halophilic conditions, aiming to use the sediment as an inoculum in nutritional assays and in the operation of HAIB reactors. Biota saline culture medium supplemented with glucose and formiate was used to develop the halophilic methanogenic microbial community. PCP degradation tests were carried out previously under different concentrations of nitrogen and phosphorus in order to gain a better understanding of the optimal N:P ratio for the anaerobic process. The findings on the microbial diversity of the domain Bacteria at the various ratios tested here indicated the selection of distinct microbial communities, resulting in different PCP degradation velocities. The N:P ratio utilized was 10:1 since it presented the best results not only in terms of faster PCP degradation than the other ratios but also highest diversity of microorganisms. The HAIB reactor was then operated with a mean inflow of approximately 44 mL/hour, using the biota saline mineral medium with a COD:N:P ratio of 1000:130:45 in R1 (reactor 1) and a COD:N:P ratio of 1000:10:1 in R2. Two distinct strategies were adopted to start up the reactors. In R1 PCP was added at an initial concentration of 10.0 mg/L for 100 days, causing destabilization of the methanogenesis and accumulation of PCP, requiring a 90-day intervention for the reactor\'s recovery. To start up R2, the PCP concentration was increased gradually from 0.5 mg/L to 12.0 mg/L for 52 days. After methanogenesis was established, R1 was fed for 270 days with 5.0 mg of PCP/L, followed by 41 days with 8.0 mg/L and 59 days with 12 mg/L. The mass balance in R1 indicated that 0.52% of the added PCP exited through the reactor\'s outflow and that adsorption of the system did not occur. 22.34 mg of 2,4,6 TCP, an intermediary of PCP degradation, was adsorbed in the bioparticles. The results of the analysis of microbial diversity indicated a change in the microbial community of the domain Bacteria along the operational period, with fluorescent bacilli morphologies resembling Methanobacterium sp present in the reactor. PCP degradation in R2 was 100% up to a concentration of 10.0 mg/L. At the end of the phase with 12.0 mg PCP/L, the effluent concentration was 1.4 mg PCP/L, with a mean removal efficiency of 93.2 \'+ or -\' 5,5%. 2,4,6 TCP was the main intermediary in the reactor\'s effluent. 4.06% of the PCP added to the system was found in the effluent and 15.94% was absorbed in the bioparticles of the reactor. Therefore, it was concluded that 80% of the added PCP underwent microbial anaerobic degradation. The presence of Methanocalcullus and Methanosaeta microorganisms in the final operating phase of R2, which was determined in the collected sediment, was considered fundamental for maintaining the reactor\'s stability. This discovery contributes to the body of information about the real microbial diversity of tropical ecosystems, above all in anaerobic habitats, and about the nutritional conditions and procedures involved in confining these microorganisms in reactors and using them in bioremediation processes.

Anaerobic bioremediation

Arquéias metanogênicas halofílicas

Biorremediação anaeróbia

Desalogenação redutiva do PCP

Estuário de Santos-São-Vicente

Halophilic methanogenic archaea

Reductive dehalogenation of PCP

Resource ratio theory

Santos-São Vicente estuary

Teoria dos recursos limitantes

Relações estrutura-retenção de flavonóides por cromatografia a líquido em membranas imobilizadas artificialmente / Structure retention relationships of flavonoids by liquid chromatography using immobilized artificial membranes

Santoro, Adriana Leandra

24 August 2007

Para um composto químico exercer seu efeito bioativo é necessário que ele atravesse várias barreiras biológicas até alcançar seu sitio de ação. Propriedades farmacocinéticas insatisfatórias (como absorção, distribuição, metabolismo e excreção) são reconhecidamente as principais causas na descontinuidade de pesquisas na busca por novos fármacos. Neste trabalho, modelos biofísicos foram utilizados para o estudo de absorção de uma série de flavonóides naturais com atividade tripanossomicida. O coeficiente cromatográfico de partição, kw, foi determinado através da cromatografia líquida de alta eficiência em fase reversa, RP-HPLC, utilizando-se de colunas cromatográficas empacotadas com constituintes básicos da membrana biológica (fosfatidilcolina e colesterol). Os resultados obtidos demonstraram que nas colunas compostas por fosfatidilcolina a retenção de flavonóides hidroxilados é determinada por interações secundárias, além da partição, e no caso da coluna de colesterol, a partição é o principal mecanismo que rege a retenção. Uma série de descritores físico-químicos foi gerada pelos campos moleculares de interações (MIFs) entre os flavonóides naturais e algumas sondas químicas virtuais, utilizando o programa GRID. Os descritores físico-químicos gerados foram correlacionados com os log kw por análise dos mínimos múltiplos parciais (PLS), utilizando o programa VolSurf, com a finalidade de gerar um modelo quantitativo entre estrutura e propriedade (QSPR) para esta classe de compostos. O modelo produzido por este estudo, ao utilizar os dados de partição em colesterol, log kwCol, apresentou elevada consistência interna, com bom poder de correlação (R2 = 0, 97) e predição (Q2 = 0,86) para a partição destas moléculas / In order to a chemical compound exert its bioactive effect it is necessary that it crosses some biological barriers until reaching its site of action. Unfavorable pharmacokinetics properties (absorption, distribution, metabolism and excretion) are admittedly one of the main causes in the discontinuity of research in the search for new drugs. In this work, biophysics models were used for the study of absorption of a series of natural flavonoids with trypanocide activity. The chromatographic retention indices (log kw) were determined on immobilized artificial membranes columns (IAM.PC.DD, IAM.PC.DD2, Cholesteryl 10-Undecetonoato) obtained by the extrapolation method. The results demonstrated that in the composed columns for fosfatidilcolina the retention of hydroxil flavonoids is determined by secondary interactions, beyond the partition. In the case of the retention for the cholesterol column, the partition is the main mechanism that drives the retention. A series of physico-chemical descriptors were generated by the molecular interaction fields (MIF) between the flavonoids and some virtual chemical probes, using the program GRID. The descriptors were correlated with log kw by the partial least squares regression (PLS), using the VolSurf program, with the purpose to generate a quantitative model between the structure and the retention (QSRR) for this compounds class. The model produced for this study, when using the data of partition in cholesterol, log kwCol, presented high internal consistency, with good correlation power (R2 = 0, 97) and prediction (Q2 = 0,86) for the partition of these molecules

coeficiente de partição (LogP)

flavonóides

flavonoids

immobilized artificial membrane (IAM)

partial least squares (PLS)

partition coefficient (log P)

relações estrutura-propriedades (SPR)

structure retention relationships (SPR)

Enhanced Butanol Production by Free and Immobilized Clostridium sp. Cells Using Butyric Acid as Co-Substrate

Gholizadeh, Laili

January 2010

Butanol production by four different Clostridium sp. strains was investigated using glucoseP2-medium supplemented with increasing concentrations of butyric acid, added as cosubstrate.Batch fermentations were carried out in serum bottles (freely-suspended cellcultures) and fibrous-bed bioreactor (FBB) with medium recirculation (immobilized cells).Butyric acid clearly revealed to inhibit cellular growth with all specific growth rates decliningupon the increase of butyrate concentrations. However, the presence of low and moderatelevels in the medium can readily enhance the ABE-fermentation and increase butanolproduction through a shift induction towards the solventogenic phase controlled by themedium pH. In all cases it was found that 4.0 g⋅l-1 is the optimal concentration of butyratethat maximizes the yields for all ABE-solvents and butanol productivities. The non-mutant C.acetobutylicum ATCC 824 was singled out as the most efficient butanol productive strainamong all bacteria tested (10.3 g⋅l-1 butanol versus 0.72 g⋅l-1 with and without 4.0 g⋅l-1butyrate, respectively) showing a productivity augment in the order of 0.078 g⋅l-1⋅h-1 (78.5%)and yields of 0.3 g⋅g-1 from substrate and 7.6 g⋅g-1 from biomass versus 0.072 g⋅g-1 and 0.41g⋅g-1 with and without the optimal butyrate concentration, respectively. This strain alsorevealed the best overall tolerance over increasing butyrate concentrations up to ∼6.0 g⋅l-1 andthe highest glucose uptake (65.5%) among all bacteria. Furthermore, the beneficial effects ofbutyric acid were also observed through the use of a fibrous bed-bioreactor when the mutatedstrains of C. beijerinckii ATCC 55025 and BA 101 were tested. The use of this immobilizedcell system effectively improved butanol production over the free system with butanol titersin the fermentation broth around 11.5 g⋅l-1 and 9.4 g⋅l-1 for the two bacteria, respectively,roughly doubling the values attained with the corresponding suspended cell cultures when themedia were supplemented with 4.0 g⋅l-1 of butyrate. All these results confirm theenhancement of butanol formation using either free or immobilized cell culturessupplemented with butyric acid concentrations up to 4.0 g⋅l-1 in the media.

bio-butanol

acetone–butanol–ethanol (abe)

abe-fermentation

butyric acid

clostridium

c. acetobutylicum atcc 824

c. beijerinckii ba 101

c. beijerinckii ncimb 8052

fibrous-bed bioreactor (fbb)

batch

suspended cell culture

immobilized cell system

c. beijerinckii atcc 55025

Engineering and Technology

Teknik och teknologier

Influência dos nutrientes nitrogênio e fósforo na degradação anaeróbia do pentaclorofenol e na diversidade microbiana dos sedimentos enriquecidos do Estuário de Santos-São Vicente, Estado de São Paulo / Influence of nitrogen and phosphorus nutrients on the anaerobic degradation of pentachlorophenol and on the natural microbial diversity of sediments from the Santos-São Vicente estuary, state of São Paulo, Brazil

Gunther Brucha

01 October 2007

A pesquisa que ora se apresenta visou estabelecer as condições nutricionais adequadas para o uso do sedimento do estuário de Santos - São Vicente do Estado de São Paulo, como inóculo no reator anaeróbio horizontal de leito fixo (RAHLF) no processo de degradação anaeróbia do pentaclorofenol (PCP) em busca da aplicação da tecnologia em escala real, assim como identificar grupos microbianos envolvidos no processo. Para tanto, sedimento do estuário de Santos-São Vicente, com características metanogênicas foi utilizado. Os microrganismos provenientes do sedimento estuarino foram enriquecidos sob condições metanogênicas e halofílicas, visando a utilização do sedimento como inoculo nos ensaios nutricionais e na operação dos reatores do tipo RAHLF. O meio de cultivo salino Biota, suplementado com glicose e formiato, foi utilizado para o desenvolvimento da comunidade microbiana metanogênica halofílica. Testes de degradação do PCP foram realizados previamente sob diferentes concentrações de nitrogênio e fósforo, com vistas a uma melhor compreensão da relação N:P adequada para o processo anaeróbio. Os resultados provenientes do acompanhamento da diversidade microbiana do domínio Bacteria nas diferentes relações testadas indicaram a seleção de distintas comunidades microbianas, resultando em diferentes velocidades de degradação do PCP. A relação N:P de 10:1 foi a que apresentou melhores resultados, pois além da rápida degradação do PCP quando comparada com as outras relações, apresentou a maior diversidade de microrganismos. Posteriormente, o sistema RAHLF foi operado com vazão média afluente de aproximadamente 44 mL/hora, com meio mineral salino Biota (DQO:N:P de 1000:130:45) para R1 e com a alteração para relação DQO:N:P de 1000:10:1 para R2. Duas diferentes estratégias foram adotadas para partida dos reatores. Para R1, optou-se por acrescentar PCP na concentração inicial de 10,0 mg/L, durante 110 dias causando desestabilização da metanogênese e acúmulo de PCP, requerendo intervenção para recuperação do reator pelo período de 90 dias. Na partida do RAHLF 2, optou-se pelo aumento gradual de concentração do PCP de 0,5 mg/L a 12,0 mg/L durante 52 dias. Após estabelecimento da metanogêsenese, R1 foi alimentado durante 270 dias com 5,0 mg PCP/L, durante 41 dias com 8,0 mg/L e 59 dias com 12 mg/L. O balanço de massa no reator RAHLF 1 demonstrou que 0,52% do PCP adicionado saiu no efluente e que não ocorreu adsorção no sistema. 22,34 mg de 2,4,6 TCP, intermediário da degradação do PCP, ficaram adsorvidos na biopartícula. Os resultados das análises de diversidade microbiana apontaram para mudança da comunidade microbiana do domínio Bacteria ao longo do período operacional e morfologias de bacilos fluorescentes semelhantes a Methanobacterium sp estiveram presentes no reator. No RAHLF 2, a degradação do PCP foi de 100%, até a concentração de 10,0 mg/L. No final da fase com 12,0 mg PCP/L, a concentração no efluente foi de 1,4 mg PCP/L, com eficiência média de remoção de 93,2 \'+ ou -\' 5,5%. 2,4,6 TCP foi o intermediário principal no efluente do reator. 4,06% do PCP adicionado ao sistema foram encontradas no efluente e 15,94% ficaram adsorvidas nas biopartículas do reator. Portanto, considera-se que 80% do PCP adicionado sofreu degradação anaeróbia microbiana. A presença dos microrganismos Methanocalcullus e Methanosaeta na fase final de operação do RAHLF 2 e determinadas no sedimento coletado foi considerada fundamental para manter estabilidade do reator. Essa descoberta contribui com informações sobre a real diversidade microbiana de ecossistemas tropicais, sobretudo em habitats anaeróbios, bem como sobre as condições nutricionais e os procedimentos necessários para confiná-la em reatores e usá-la em processos de biorremediação. / The research presented here aimed to determine the optimal nutritional conditions for the use of sediment from the Santos-São Vicente estuary in the state of São Paulo, Brazil, as an inoculum for a horizontal-flow anaerobic immobilized biomass reactor (HAIB) applied to the anaerobic degradation of pentachlorophenol (PCP), seeking to apply the technology on the real scale and to identify the microbial groups involved in the process. To this end, sediment with methanogenic characteristics from the Santos-São Vicente estuary was used. The microorganisms from the estuarine sediment were enriched under methanogenic and halophilic conditions, aiming to use the sediment as an inoculum in nutritional assays and in the operation of HAIB reactors. Biota saline culture medium supplemented with glucose and formiate was used to develop the halophilic methanogenic microbial community. PCP degradation tests were carried out previously under different concentrations of nitrogen and phosphorus in order to gain a better understanding of the optimal N:P ratio for the anaerobic process. The findings on the microbial diversity of the domain Bacteria at the various ratios tested here indicated the selection of distinct microbial communities, resulting in different PCP degradation velocities. The N:P ratio utilized was 10:1 since it presented the best results not only in terms of faster PCP degradation than the other ratios but also highest diversity of microorganisms. The HAIB reactor was then operated with a mean inflow of approximately 44 mL/hour, using the biota saline mineral medium with a COD:N:P ratio of 1000:130:45 in R1 (reactor 1) and a COD:N:P ratio of 1000:10:1 in R2. Two distinct strategies were adopted to start up the reactors. In R1 PCP was added at an initial concentration of 10.0 mg/L for 100 days, causing destabilization of the methanogenesis and accumulation of PCP, requiring a 90-day intervention for the reactor\'s recovery. To start up R2, the PCP concentration was increased gradually from 0.5 mg/L to 12.0 mg/L for 52 days. After methanogenesis was established, R1 was fed for 270 days with 5.0 mg of PCP/L, followed by 41 days with 8.0 mg/L and 59 days with 12 mg/L. The mass balance in R1 indicated that 0.52% of the added PCP exited through the reactor\'s outflow and that adsorption of the system did not occur. 22.34 mg of 2,4,6 TCP, an intermediary of PCP degradation, was adsorbed in the bioparticles. The results of the analysis of microbial diversity indicated a change in the microbial community of the domain Bacteria along the operational period, with fluorescent bacilli morphologies resembling Methanobacterium sp present in the reactor. PCP degradation in R2 was 100% up to a concentration of 10.0 mg/L. At the end of the phase with 12.0 mg PCP/L, the effluent concentration was 1.4 mg PCP/L, with a mean removal efficiency of 93.2 \'+ or -\' 5,5%. 2,4,6 TCP was the main intermediary in the reactor\'s effluent. 4.06% of the PCP added to the system was found in the effluent and 15.94% was absorbed in the bioparticles of the reactor. Therefore, it was concluded that 80% of the added PCP underwent microbial anaerobic degradation. The presence of Methanocalcullus and Methanosaeta microorganisms in the final operating phase of R2, which was determined in the collected sediment, was considered fundamental for maintaining the reactor\'s stability. This discovery contributes to the body of information about the real microbial diversity of tropical ecosystems, above all in anaerobic habitats, and about the nutritional conditions and procedures involved in confining these microorganisms in reactors and using them in bioremediation processes.

Arquéias metanogênicas halofílicas

Biorremediação anaeróbia

Desalogenação redutiva do PCP

Estuário de Santos-São-Vicente

Teoria dos recursos limitantes

Anaerobic bioremediation

Halophilic methanogenic archaea

Reductive dehalogenation of PCP

Resource ratio theory

Santos-São Vicente estuary

Relações estrutura-retenção de flavonóides por cromatografia a líquido em membranas imobilizadas artificialmente / Structure retention relationships of flavonoids by liquid chromatography using immobilized artificial membranes

Adriana Leandra Santoro

24 August 2007

Para um composto químico exercer seu efeito bioativo é necessário que ele atravesse várias barreiras biológicas até alcançar seu sitio de ação. Propriedades farmacocinéticas insatisfatórias (como absorção, distribuição, metabolismo e excreção) são reconhecidamente as principais causas na descontinuidade de pesquisas na busca por novos fármacos. Neste trabalho, modelos biofísicos foram utilizados para o estudo de absorção de uma série de flavonóides naturais com atividade tripanossomicida. O coeficiente cromatográfico de partição, kw, foi determinado através da cromatografia líquida de alta eficiência em fase reversa, RP-HPLC, utilizando-se de colunas cromatográficas empacotadas com constituintes básicos da membrana biológica (fosfatidilcolina e colesterol). Os resultados obtidos demonstraram que nas colunas compostas por fosfatidilcolina a retenção de flavonóides hidroxilados é determinada por interações secundárias, além da partição, e no caso da coluna de colesterol, a partição é o principal mecanismo que rege a retenção. Uma série de descritores físico-químicos foi gerada pelos campos moleculares de interações (MIFs) entre os flavonóides naturais e algumas sondas químicas virtuais, utilizando o programa GRID. Os descritores físico-químicos gerados foram correlacionados com os log kw por análise dos mínimos múltiplos parciais (PLS), utilizando o programa VolSurf, com a finalidade de gerar um modelo quantitativo entre estrutura e propriedade (QSPR) para esta classe de compostos. O modelo produzido por este estudo, ao utilizar os dados de partição em colesterol, log kwCol, apresentou elevada consistência interna, com bom poder de correlação (R2 = 0, 97) e predição (Q2 = 0,86) para a partição destas moléculas / In order to a chemical compound exert its bioactive effect it is necessary that it crosses some biological barriers until reaching its site of action. Unfavorable pharmacokinetics properties (absorption, distribution, metabolism and excretion) are admittedly one of the main causes in the discontinuity of research in the search for new drugs. In this work, biophysics models were used for the study of absorption of a series of natural flavonoids with trypanocide activity. The chromatographic retention indices (log kw) were determined on immobilized artificial membranes columns (IAM.PC.DD, IAM.PC.DD2, Cholesteryl 10-Undecetonoato) obtained by the extrapolation method. The results demonstrated that in the composed columns for fosfatidilcolina the retention of hydroxil flavonoids is determined by secondary interactions, beyond the partition. In the case of the retention for the cholesterol column, the partition is the main mechanism that drives the retention. A series of physico-chemical descriptors were generated by the molecular interaction fields (MIF) between the flavonoids and some virtual chemical probes, using the program GRID. The descriptors were correlated with log kw by the partial least squares regression (PLS), using the VolSurf program, with the purpose to generate a quantitative model between the structure and the retention (QSRR) for this compounds class. The model produced for this study, when using the data of partition in cholesterol, log kwCol, presented high internal consistency, with good correlation power (R2 = 0, 97) and prediction (Q2 = 0,86) for the partition of these molecules

coeficiente de partição (LogP)

flavonóides

relações estrutura-propriedades (SPR)

flavonoids

immobilized artificial membrane (IAM)

partial least squares (PLS)

partition coefficient (log P)

structure retention relationships (SPR)

Investigation of charge transport/transfer and charge storage at mesoporous TiO2 electrodes in aqueous electrolytes / Etude des processus de transport / transfert et accumulation de charges au sein d’un film semi-conducteur mésoporeux de TiO2 en solution électrolytique aqueuse

Kim, Yee Seul

08 November 2018

Améliorer notre compréhension des mécanismes de transport/transfert de charges et de stockage de charges dans les films d'oxyde métallique semi-conducteur mésoporeux transparents (fonctionnalisés ou non par des chromophores redox-actifs) dans des électrolytes aqueux est d'une importance fondamentale pour le développement et l'optimisation d'une large gamme de dispositifs de production ou de stockage d'énergie éco-compatibles et/ou éco-durables (cellules solaires à colorants, batteries, photoélectrolyseurs, ….). Dans ce but, des films de TiO2 semi-conducteur mésoporeux préparés par dépôt sous incidence rasante (GLAD-TiO2) ont été sélectionnés pour leur grande surface spécifique, leur morphologie bien contrôlée, leur transparence élevée dans le visible et leur semiconductivité bien définie qui peut être facilement ajustée par l’application d’un potentiel externe, autorisant ainsi leur caractérisation aisée par spectroélectrochimie en temps réel. Nous avons d'abord étudié le transfert et transport de charges dans des électrodes GLAD-ITO et GLAD-TiO2 fonctionnalisées par une porphyrine de manganèse redox-active jouant à la fois le rôle de chromophore et de catalyseur. Nous avons démontré que la réponse électrochimique des électrodes ainsi modifiées, enregistrée en l'absence ou en présence du substrat O2, dépend fortement de la conductivité du film mésoporeux. En utilisant la voltamétrie cyclique couplée à la spectroscopie d'absorption UV-visible, nous avons pu extraire des informations clés telles que la vitesse du transfert d'électrons hétérogène entre le chromophore redox immobilisé et le matériau semi-conducteur, et aussi pu rationaliser le comportement électrochimique spécifique obtenu sur un film GLAD-TiO2 modifié par la porphyrine en condition catalytique. En parallèle, nous avons développé un procédé de fonctionnalisation de ces films d'oxyde métallique mésoporeux (en l’occurrence des films GLAD-ITO) par électrogreffage de sels d'aryldiazonium générés in situ, permettant d'obtenir des électrodes fonctionnalisées avec un taux de recouvrement surfacique élevé et une stabilité dans le temps particulièrement bonne en conditions hydrolytiques. Nous avons également étudié le stockage de charges au sein d’électrodes GLAD-TiO2 dans divers électrolytes aqueux. Nous avons notamment démontré pour la première fois qu’une insertion rapide, massive et réversible de protons peut être effectuée dans des films de TiO2 nanostructurés amorphes immergés dans un tampon aqueux neutre, le donneur de protons étant alors la forme acide faible du tampon. Nous avons également démontré que ce processus de stockage d’électrons couplé à l’insertion de protons peut se produire sur toute la gamme de pH et pour un vaste panel d'acides faibles organiques ou inorganiques, mais aussi de complexes aqueux d'ions métalliques multivalents, à condition que le potentiel appliqué et le pKa de l'acide faible soient correctement ajustés. / Better understanding of the mechanisms of charge transport/transfer and charge storage in transparent mesoporous semiconductive metal oxide films (either functionalized or not by redox-active chromophores) in aqueous electrolytes is of fundamental importance for the development and optimization of a wide range of safe, eco-compatible and sustainable energy producing or energy storage devices (e.g., dye-sensitized solar cells, batteries, photoelectrocatalytic cells, …). To address this question, mesoporous semiconductive TiO2 films prepared by glancing angle deposition (GLAD-TiO2) were selected for their unique high surface area, well-controlled morphology, high transparency in the visible, and well-defined semiconductivity that can be easily adjusted through an external bias, allowing thus their characterization by real-time spectroelectrochemistry. We first investigated charge transfer/transport at GLAD-ITO and GLAD-TiO2 electrodes functionalized by a redox-active manganese porphyrin that can play both the role of chromophore and catalyst. We demonstrate that the electrochemical response of the modified electrodes, recorded either in the absence or presence of O2 as substrate, is strongly dependent on the mesoporous film conductivity. By using cyclic voltammetry coupled to UV-visible absorption spectroscopy, we were able to recover some key information such as the heterogeneous electron transfer rate between the immobilized redox-active dye and the semiconductive material, and also to rationalize the specific electrochemical behavior obtained at a porphyrin-modified GLAD TiO2 film under catalytic turnover. In parallel, we developed a new functionalization procedure of mesoporous metal oxide films (GLAD-ITO in the present case) by electrografting of in-situ generated aryldiazonium salts, allowing for modified electrodes characterized by both a high surface coverage and a particularly good stability over time under hydrolytic conditions. Also, we investigated charge storage at GLAD-TiO2 electrodes under various aqueous electrolytic conditions. We notably evidenced for the first time that fast, massive, and reversible insertion of protons can occur in amorphous nanostructured TiO2 films immersed in near neutral aqueous buffer, with the proton donor being the weak acid form of the buffer but not water. We also demonstrated that this proton-coupled electron charge storage process can occur over the entire range of pH and for a wide range of organic or inorganic weak acids, but also of multivalent metal ion aquo complexes, as long as the applied potential and pKa of weak acid are properly adjusted.

Electrochimie moléculaire

Stockage de charge electrochimique

Spectroelectrochimie en temps réel

Batterie aqueuse

Porphyrines immobilisées

Réduction catalytique de O2

Insertion de protons

Molecular electrochemistry

Electrochemical charge storage

Mesoporous metal-oxide electrodes

Real-time spectroelectrochemistry

Diazonium electrografting

Aqueous battery

Immobilized porphyrins

Catalytic O2 reduction

Proton insertion

Marquage fluorescent des protéines pour étudier les enzymes protéolytiques solubles et immobilisées par la cartographie peptidique électrophorétique

Gan, Shao MIng

06 1900

La cartographie peptidique est une méthode qui permet entre autre d’identifier les modifications post-traductionnelles des protéines. Elle comprend trois étapes : 1) la protéolyse enzymatique, 2) la séparation par électrophorèse capillaire (CE) ou chromatographie en phase liquide à haute performance (HPLC) des fragments peptidiques et 3) l’identification de ces derniers. Cette dernière étape peut se faire par des méthodes photométriques ou par spectrométrie de masse (MS). Au cours de la dernière décennie, les enzymes protéolytiques immobilisées ont acquis une grande popularité parce qu’elles peuvent être réutilisées et permettent une digestion rapide des protéines due à un rapport élevé d’enzyme/substrat. Pour étudier les nouvelles techniques d’immobilisation qui ont été développées dans le laboratoire du Professeur Waldron, la cartographie peptidique par CE est souvent utilisée pour déterminer le nombre total de peptides détectés et leurs abondances. La CE nous permet d’avoir des séparations très efficaces et lorsque couplée à la fluorescence induite par laser (LIF), elle donne des limites de détection qui sont 1000 fois plus basses que celles obtenues avec l’absorbance UV-Vis. Dans la méthode typique, les peptides venant de l’étape 1) sont marqués avec un fluorophore avant l’analyse par CE-LIF. Bien que la sensibilité de détection LIF puisse approcher 10-12 M pour un fluorophore, la réaction de marquage nécessite un analyte dont la concentration est d’au moins 10-7 M, ce qui représente son principal désavantage. Donc, il n’est pas facile d’étudier les enzymes des peptides dérivés après la protéolyse en utilisant la technique CE-LIF si la concentration du substrat protéique initial est inférieure à 10-7 M. Ceci est attribué à la dilution supplémentaire lors de la protéolyse. Alors, afin d’utiliser le CE-LIF pour évaluer l’efficacité de la digestion par enzyme immobilisée à faible concentration de substrat,nous proposons d’utiliser des substrats protéiques marqués de fluorophores pouvant être purifiés et dilués. Trois méthodes de marquage fluorescent de protéine sont décrites dans ce mémoire pour étudier les enzymes solubles et immobilisées. Les fluorophores étudiés pour le marquage de protéine standard incluent le naphtalène-2,3-dicarboxaldéhyde (NDA), la fluorescéine-5-isothiocyanate (FITC) et l’ester de 6-carboxyfluorescéine N-succinimidyl (FAMSE). Le FAMSE est un excellent réactif puisqu’il se conjugue rapidement avec les amines primaires des peptides. Aussi, le substrat marqué est stable dans le temps. Les protéines étudiées étaient l’-lactalbumine (LACT), l’anhydrase carbonique (CA) et l’insuline chaîne B (INB). Les protéines sont digérées à l’aide de la trypsine (T), la chymotrypsine (CT) ou la pepsine (PEP) dans leurs formes solubles ou insolubles. La forme soluble est plus active que celle immobilisée. Cela nous a permis de vérifier que les protéines marquées sont encore reconnues par chaque enzyme. Nous avons comparé les digestions des protéines par différentes enzymes telles la chymotrypsine libre (i.e., soluble), la chymotrypsine immobilisée (i.e., insoluble) par réticulation avec le glutaraldéhyde (GACT) et la chymotrypsine immobilisée sur billes d’agarose en gel (GELCT). Cette dernière était disponible sur le marché. Selon la chymotrypsine utilisée, nos études ont démontré que les cartes peptidiques avaient des différences significatives selon le nombre de pics et leurs intensités correspondantes. De plus, ces études nous ont permis de constater que les digestions effectuées avec l’enzyme immobilisée avaient une bonne reproductibilité. Plusieurs paramètres quantitatifs ont été étudiés afin d’évaluer l’efficacité des méthodes développées. La limite de détection par CE-LIF obtenue était de 3,010-10 M (S/N = 2,7) pour la CA-FAM digérée par GACT et de 2,010-10 M (S/N = 4,3) pour la CA-FAM digérée par la chymotrypsine libre. Nos études ont aussi démontrées que la courbe d’étalonnage était linéaire dans la région de travail (1,0×10-9-1,0×10-6 M) avec un coefficient de corrélation (R2) de 0,9991. / Peptide mapping is a routine method for identifying post-translational modifications of proteins. It involves three steps: 1) enzymatic proteolysis, 2) separation of the peptide fragments by capillary electrophoresis (CE) or high performance liquid chromatography (HPLC), 3) identification of the peptide fragments by photometric methods or mass spectrometry (MS). During the past decade, immobilized enzymes for proteolysis have been gaining in popularity because they can be reused and they provide fast protein digestion due to the high ratio of enzyme-to-substrate. In order to study new immobilization techniques developed in the Waldron laboratory, peptide mapping by CE is frequently used, where the total number of peptides detected and their abundance are related to enzymatic activity. CE allows very high resolution separations and, when coupled to laser-induced fluorescence (LIF), provides excellent detection limits that are 1000 times lower than with UV-Vis absorbance. In the typical method, the peptides produced in step 1) above are derivatized with a fluorophore before separation by CE-LIF. Although the detection sensitivity of LIF can approach 10 12 M for a highly efficient fluorophore, a major disadvantage is that the derivatization reaction requires analyte concentrations to be approx. 10 7 M or higher. Therefore, it is not feasible to study enzymes using CE-LIF of the peptides derivatized after proteolysis if the initial protein substrate concentration is <10-7 M because additional dilution occurs during proteolysis. Instead, to take advantage of CE-LIF to evaluate the efficiency of immobilized enzyme digestion of low concentrations of substrate, we propose using fluorescently derivatized protein substrates that can be purified then diluted. Three methods for conjugating fluorophore to protein were investigated in this work as a means to study both soluble and immobilized enzymes. The fluorophores studied for derivatization of protein standards included naphthalene-2,3-dicarboxaldehyde (NDA), fluoresceine-5-isothiocyanate (FITC) and 6-carboxyfluorescein N-succinimide ester (FAMSE). The FAMSE was found to be an excellent reagent that conjugates quickly with primary amines and the derivatized substrate was stable over time. The studied substrates were -lactalbumin (LACT), carbonic anhydrase (CA) and insulin chain-B (INB). The CE-LIF peptide maps were generated from digestion of the fluorescently derivatized substrates by trypsin (T), chymotrypsin (CT) or pepsin (PEP), either in soluble or insoluble forms. The soluble form of an enzyme is more active than the immobilized form and this allowed us to verify that the conjugated proteins were still recognized as substrates by each enzyme. The digestion of the derivatized substrates with different types of chymotrypsin (CT) was compared: free (i.e., soluble) chymotrypsin, chymotrypsin cross-linked with glutaraldehyde (GACT) and chymotrypsin immobilized on agarose gel particles (GELCT), which was available commercially. The study showed that, according to the chymotrypsin used, the peptide map would vary in the number of peaks and their intensities. It also showed that the digestion by immobilized enzymes was quite reproducible. Several quantitative parameters were studied to evaluate the efficacy of the methods. The detection limit of the overall method (CE-LIF peptide mapping of FAM-derivatized protein digested by chymotrypsin) was 3.010-10 M (S/N = 2.7) carbonic anhydrase using insoluble GACT and 2.010-10 M (S/N = 4.3) CA using free chymotrypsin. Our studies also showed that the standard curve was linear in the working region (1.0×10-9-1.0×10-6 M) with a correlation coefficient (R2) of 0.9991.

α-Lactalbumine

Anhydrase carbonique

Insuline chaîne B

Naphtalène-2,3-dicarboxaldéhyde (NDA)

Fluorescéine-5-isothiocyanate (FITC)

Marquage fluorescent

Enzymes immobilisées

Glutaraldéhyde (GA)

Cartographie peptidique

Électrophorèse capillaire (CE)

Fluorescence induite par laser (LIF)

α-Lactalbumin

Carbonic anhydrase

Insulin chain B

Naphthalene-2,3-dicarboxaldehyde (NDA)

Fluorescein-5-isothiocyanate (FITC)

6-carboxyfluorescein

Fluorescent conjugation

Immobilized enzymes

Glutaraldehyde (GA)

Peptide mapping