Purification of the major envelope protein GP5 of porcine reproductive and respiratory syndrome virus (PRRSV) from native virions

Matanin, Brad Matthew

13 June 2007

Porcine reproductive and respiratory syndrome virus (PRRSV) is the cause of a pandemic that has been devastating the U.S. and global swine industry for more than twenty years. PRRSV vaccine development is challenging due to virus heterogeneity. Evidence indicates that the major envelope protein, GP5, is the primary target for a subunit vaccine. In native virions GP5 primarily exists as a disulfide linked complex with the membrane protein, M, which also possesses immunogenic properties. Recent studies report that the GP5/M complex is a more significant vaccine candidate. Currently, no bulk purification methods have been reported for PRRSV proteins. The objective of this research was to develop a purification process for GP5 or GP5/M from native virions. PRRS virions were isolated and concentrated through sucrose cushion ultracentrifugation and target envelope proteins were solubilized with Triton X-100 detergent for further processing. GP5/M was not consistently identified in samples and was therefore abandoned. GP5 was identified by Western blot throughout processing with a αORF5 antibody. Cation exchange chromatography (CEX) was utilized for partial fractionation of GP5, although the viral nucleocapsid protein, N, was a major impurity in CEX elution fractions. As a second chromatographic step, hydrophobic interaction chromatography (HIC) further purified GP5 by means of a two-stage elution scheme. Pure GP5 was eluted from the HIC resin in the second HIC elution stage by Triton X-100 displacement; however the protein is present as a homodimeric/tetrameric aggregate. This process will be useful in PRRSV vaccine development and the purified GP5 product could be used as much needed positive controls in animal studies. / Master of Science

detergent solubilization

protein purification

GP5

chromatography

PRRSV

virus culture

Solubilizační schopnosti polysacharidů / Solubilizattion properties of polysaccharides

Lenartová, Radka

January 2008

In this diploma thesis were studied solubilization properties of polysaccharides by using hydrophobic solutes (Sudan Orange G, Sudan Red G, (±)-alpha-Tocopherol, Pyrene, Perylene, Nile red), which were represented by alkyl derivates of hyaluronan. At first, a behaviour of individual hydrophobic solutes was investigated in variously polar solvents (Methanol, 1 Propanol, Chloroforme, Cyklohexane, n Heptane) and in the environment of varying ionic strength (water, 0.1 M and 0.4 M NaCl). Afterwards, solubilization properties of Sodium Dodecyl Sulfate model solubilizated the hydrophobic solutes into a core of micelles was examinate. We were interested in the solubilization capacity as the mol of solubilized molecules per mol micelles of surfactant corresponding with a state of micelles saturation. In the case of the solubilization of (±)-alpha-Tocopherol into the core of micelles, it was not possible to determine the solubilization capacity. So we changed the determination of universally solubilization power. The solubilization power is defined as mol of molecules solubilized per mol surfactant relative to the quantity solubilizate at the micelles saturation. Model system of Sodium Dodecyl Sulfate as a simple surfactant carrying a negative charge as the alkyl derivates of hyaluronan was selected bacause of its characteristics.The surfactant forms unimolar micelles and its critical micelle concentrations and aggregation numbers are tabelated for the investigated microenvironment. The main aim of the study was investigating of hydrophobic domains of alkyl derivates of hyaluronan as free places for incorporation hydropbobic solutes in the microenvironment of varying ionic strength. The critical aggregation concentrations were determined by the Pyrene 1:3 ratio method. For the research of micropolarity of alkyl derivates hyaluronan’s domains were selected two concentrations of derivates for the next research of solubilization experiments - the first concentration near the critical aggregation concentration and the second concentration above it. The effect of concentration of Pyrene on a core polarity of derivates was investigated. We discovered the influence of the concentration and the other we found a stationary area of the concentration. In the end we investigated the influence of preparation of solutions of derivates of hyaluronan on the core polarity by the concentration of pyrene which corresponds to the stationary area. The study of solubilization properties of alkyl derivates of hyaluronan is not a simple case as we assumed. When we measured spectra of the absorbance, higher concentration of derivates of hyaluronan belittle absorbance of solubilizates. At the experiment of solubilization with Sudan Red G we found out that Sudan Red G is not able to solubilizate into the hydrophobic core of micelles of hyaluronan’s derivates because of lipophilic or steric effects. We had to change Perylene as a new solubilizate. From the measured emission spectra we found saturation micelles. We can express the solubilization power of hyaluronan’s derivates for the concentration of Perylene. The main aim of the diploma thesis was to determine optimal way of the preparation of hyaluronan’s derivates solutions with required degree of solubilization.

STUDIES OF SOLUBILIZATION OF POORLY WATER-SOLUBLE DRUGS DURING <i>IN VITRO</i> LIPOLYSIS OF A MODEL LIPID-BASED DRUG DELIVERY SYSTEM AND IN MIXED MICELLES

Song, Lin

01 January 2011

Lipid-based drug delivery systems (LBDDSs) are becoming an increasingly popular approach to improve the oral absorption of poorly-water soluble drugs. Several possible mechanisms have been proposed to explain the means by which LBDDSs act in vivo to enhance absorption. The goal of the current dissertation is to provide a better understanding of one proposed mechanism; the capability of lipoidal components in LBDDS formulations to create and maintain a drug in a supersaturated state under simulated GI conditions. Moreover, molecular details of equilibrium solubilization of a drug in a series of model lipid assemblies were examined. The results of these studies will aid formulators in choosing the optimal LBDDS to improve oral absorption of poorly water-soluble drugs. Time-dependent solubilization behavior of progesterone, 17β-estradiol and nifedipine in a simple model LBDDS composed of Polysorbate 80 was assessed employing the in vitro dynamic lipolysis model. The results illustrated the extent to which the supersaturated state was dependent on the extent of lipolysis of Polysorbate 80 and the initial drug concentration. Area-under-the curve-supersaturation was proposed as a means of quantifying the time-dependent extent of supersaturation in LBDDSs in simulated intestinal conditions. Concurrently, a series of model mixed micellar solutions, composed of Polysorbate 80 and oleic acid, were prepared to represent the lipid assemblies produced during the lipolysis experiments. The ability of these aggregates to solubilize progesterone, 17β-estradiol and nifedipine were evaluated and the aggregate/water partition coefficients were determined. The Treinor model was found to successfully fit the partition coefficients of the drugs in a range of mixed micelles. The equilibrium solubility of drugs in the mixed micelles was calculated and compared to that found under lipolytic conditions. The best agreement between calculated and experimental conditions was observed for nifedipine. These studies have established a foundation for the evaluation of time-dependent extent of supersaturation with more complex LBDDS formulations exposed to lipolytic conditions.

Lipolysis

Lipid-based Drug Delivery System (LBDDS)

Solubilization

Supersaturation

Pharmacy and Pharmaceutical Sciences

STUDIES ON DRUG SOLUBILIZATION MECHANISM IN SIMPLE MICELLE SYSTEMS

Feng, Shaoxin

01 January 2009

Poor aqueous solubilities of drug candidates limit the biopharmaceutical usefulness in either oral or parenteral dosage forms. Lipid assemblies, such as micelles, may provide a means of enhancing solubility. Despite their usefulness, little is known about the means by which micelles accomplish this result. The goal of the current dissertation is to provide the molecular level understanding of the mechanism by which simple micelle systems solubilize drugs. Specifically, the location, orientation and amount of the drug molecules in micelle systems are the focuses of the work. Three series of model drugs, steroids, benzodiazepines and parabens, in three surfactant systems with anionic, cationic and neutral hydrophilic headgroups were studied. Solubilization power of each micelle system for each model drug was determined by equilibrium solubility. The observed strong surface activities of model drug at hydrocarbon/water interface and the ability of the drugs to compete with surfactants for the model oil/water interface lend support to the hypothesis that drug molecules are mainly solubilized in the interfacial region of the micelles. A surface-localized thermodynamic model that considered the surfactant-drug competition at micelle surface was successfully applied to predict the micelle/water partitioning coefficients. The predictions were made without the use of adjustable parameters in the case of both dilute and concentrated solutions. The orientation of drug at micelle surface was determined by matching calculated occupied areas by solutes at oil/water interface using molecular modeling method to the experimental values. To look into the micro-structure of micelles, twodimensional and diffusion (or PGSE) NMR techniques were employed to detect the specific drug-surfactant interactions and the micelle sizes influenced by model drugs and electrolytes.

Pharmacy and Pharmaceutical Sciences

Soluble Organic Matter, its Biodegradation, Dynamics and Abiotic Production

Toosi, Ehsan Razavy

January 2010

Soluble organic matter represent less than 1% of total soil organic matter (SOM) - but it contributes to many terrestrial ecosystem processes, due to its high mobility and reactivity in soil. Although it has been suggested that soluble organic matter (OM) may serve as an early indicator of soil quality changes as a result of shifts in land-use and management practices, only a few studies have addressed the dynamics of soluble OM in relation to land-use and specifically soil depth. This study focuses on two aspects of soluble OM. In the first part, I hypothesized that extractable OM obtained by aqueous solutions is a continuum of substances that depending on the extraction method can be separated into two operationally different fractions. The size and properties of these fractions may consistently differ among different land uses and at different soil depths. The objective of this part of the study was then to assess dynamics (size and properties, biodegradability and seasonality) of water extractable organic matter (WEOM) and salt extractable organic matter (SEOM) in a sequence of human dominated land-uses at topsoil and subsoil. At the second part of the study, I tested the regulatory gate hypothesis –abiotic solubilization of OM- as a primary controlling factor in soluble OM production. The objective of this study was to evaluate the impact of the microbial activity on the net production of dissolved organic matter (DOM) from the native SOM in the presence of added DOM and plant residue. For the first part of the experiment, the soil samples were collected from four land-uses under bog pine (Halocarpus bidwillii) woodland, tussock grassland (Festuca novae-zelandiae and Heiracium pilosella), cropland (Medicago sativa) and plantation forest (Pinus nigra). The selected land uses were located in the Mackenzie Basin, Canterbury, New Zealand and occurring on the same soils, topography and experienced similar climates. Soil samples were obtained from topsoil (0-20 cm) and subsoil (60-80 cm) at the end of each season (November, February, May and August) during 2007-2008. The sampled soils were adjusted to the same water status prior to extraction. While WEOM was obtained during a mild extraction procedure and using 0.01M CaCl2, SEOM was extracted with 0.5M K2SO4 at high temperature (75οC for 90 min). Both extracts were filtered through a 0.45 μm filter size. In the first part of the study, I assessed the biodegradation dynamics of WEOM and SEOM (spring samples), using a double-exponential decay model. The WEOM and SEOM were inoculated and incubated at 22°C for 90d under aerobic conditions. Subsamples were removed on days 1, 3, 7, 12, 16, 30, 42, 60, 75, and 90, filtered (0.22 μm), and analyzed for organic C and N content, UV absorption, and 13C natural abundance (δ13C). The results of the biodegradation experiment indicated a similar pattern for both C and N of SEOM and WEOM as that of previously shown for soil DOM. However, C and N mineralization rate were considerably larger in the WEOM than SEOM. The parameters of the double-exponential model suggested that regardless of the land-use and soil depth, both the WEOM and SEOM can be modeled in two biological pools, with a largely similar “fast decomposable” but different “slowly decomposable” pools. However, since the extraction was not sequentially followed, a very small portion of the SEOM was comprised of the WEOM and given the greater observed biodegradability of the WEOM, the overall biodegradable portion of the SEOM would be lower than the observed. Despite a greater biodegradability of the organic N than C of both WEOM and SEOM; mainly due to a longer HL of the slowly biodegradable pool of C; the C/N ratio of the samples did not change very much during the biodegradation. This led us to conclude that the biodegradation of soluble OM may occur as a function of N availability. Parallel to C and N loss, a considerable increase in SUVA254 of SEOM, and particularly WEOM occurred during the incubation period. The greater increase in the proportion of aromatic compounds (assessed by SUVA) in the WEOM than SEOM, implied consumption of simple compounds (vs. very humified) during decomposition and further supported the observed faster biodegradation rate of the WEOM. The data indicated a relatively strong correlation (R2=0.66 and 0.74 for the WEOM and SEOM, respectively) between the amount of biodegraded C and the increase in SUVA254. This suggested that SUVA254 can be used as a simple, low-cost but reliable approach for describing the biodegradability of soluble OM, as previously suggested by others. At the end of the bioassay, the 13C natural abundance of the WEOM was significantly depleted, and showed a clear relationship with the proportion of the biodegraded C. This confirmed the previously suggested preferential biodegradation of simple organic constituents (13C enriched), resulting in the accumulation of more depleted 13C compounds (often recalcitrant compounds). Moreover, the results of the δ13C technique revealed that the relatively greater 13C enrichment of the WEOM obtained from subsoil, seems to be due to the presence of root exudates (often highly 13C enriched). In contrast, a proportionally greater 13C depletion observed in the SEOM particularly at subsoil samples, suggests that there is a close relationship between the SEOM and the typically 13C depleted humified SOM. The results of the biodegradation model (half-life of both C and N), in addition to dynamics of SUVA254 and δ13C of the WEOM and SEOM were very comparable between top and subsoil samples. This implied that the potential biodegradability of soluble OM under laboratory conditions does not necessary reflect the reported lower in situ biodegradability at soil depth, in agreement with recent evidence suggested by others. Instead, this may be largely due to the lack of optimum conditions (oxygen, nutrients, and moisture) for the decomposer community at soil depth. Although there was a tendency for a generally greater biodegradability of the samples from the soils under the crop land (both WEOC and SEOC), along with relatively greater increase in SUVA, there was not a consistent trend of the effect of land use on the biodegradation of either WEOM or SEOM. The lower C/N ratio of the soils under the crop land seemed to be related with the observed proportionally greater biodegradability of these soils. During the second part of the study, I assessed seasonal variations of the size and properties of the previously defined WEOM and SEOM, collected from top-and subsoil from the land-uses. I observed that 10-year after conversion of the degraded tussock grassland to cropland or plantation, the total C stock of topsoil (0-20 cm) when above- and below-ground plant biomass is excluded; has remained unchanged. This was attributed to the limited biomass production of the region, more likely as a result of low productivity of the soil, but also harsh climatic conditions. Not only soil depth, but land-use affected both C concentration and C/N ratio of soil organic matter (SOM), with the greatest C concentration of soils under grassland and plantation in topsoil and subsoil, respectively. Despite the WEOM, the size of SEOM was largely unaffected by land-use and soil depth; instead, the properties of SEOM was more consistent with the effect of soil depth. Given the observed large temporal and spatial variability of the WEOM, the study suggests that the SEOM more consistently reflects the influence of land use and soil depth. No consistent effect of seasonality was observed in terms of size or properties of the SOM and the WEOM and SEOM. Overall comparison of the size and properties of the WEOM and SEOM indicated that OM extraction efficiency may vary largely, depending on extraction conditions. Using more concentrated salt solutions consistently yielded greater amount of OM (N, and especially C) release from soil with properties resembling more those of total soil OM (more humified) compared to the WEOM. The SEOM was also less variable by time and space. The last part of the study was aimed to assess biotic vs. non-biotic solubilization of OM in the presence of added plant residue. Given the need to recognize the source of the solubilized OM during the experiment, I used enriched (13C) plant residue as the source of fresh OM. The above-ground part of ryegrass was added to soil either as plant residue or residue extract (extracted with CaCl2 followed by 0.45μm filtration) -termed DOM. These two forms of added OM (residue/DOM) were conceived to represent two levels of bioavailability for the decomposer community for further assessing possible biotic solubilization of OM. Two soils similar in their OM content and other properties, but different in mineralogy were selected for the experiment. Soils were incubated for 90d under sterilized vs. non-sterile conditions and leached regularly with a dilute aqueous solution (0.05M CaCl2). Plant residue was added to soil (1:100, residue: soil, w/w) prior to the start of the incubation, but DOM was frequently applied to the soils along with each leaching experiment. The greater C and N concentration in the leachates of both sterilized residue-amended and DOM-amended soils compared to that of living soils, indicated a high microbial activity, as determined by CO2 loss, in the living soils. However, the proportion of the solubilized C (determined by 13C) from sterilized soils was largely comparable to that of living soils. This supports the recently suggested “regulatory gate” hypothesis, stating that solubilisation of OM largely occurs independent of the size or community structure of microorganisms. In addition, I observed that even with the presence of adequate amount of added fresh OM (ryegrass residue), about 70% of the solubilized C consistently originated from the humified soil OM, highlighting the role of native soil OM as the source of soluble OM in soil. In addition, in the DOM-amended soils, there was strong evidence, indicating that in the sterilized soils, the added DOM was exchanged with the humified soil OM as observed by an increase in SUVA, and humification index (HI) of the leached OM. Although the results of the study did not show a considerable difference in the solubilisation rate of added OM as a function of biological activity (either in the residue- or DOM-amended soils), there was clear evidence that the presence of microbial activity has resulted in further decomposition of the solubilised OM through biological transformations. Together, the results suggested that the proposed fractionation method can be used to separate two operationally defined pools of soluble OM with consistent differences in their size (C and N), properties (δ13C, SUVA254, and C/N ratio) and biodegradability across the land-uses and soil depth. The second part of the study supported the primary role of abiotic factors on the production of soluble OM from native soil OM. Although the abiotic mechanisms involved in the solubilization remain to be addressed by future studies. Cons and pros of the methods with some suggestions for further works have been mentioned in the last chapter.

soluble organic matter

extractable organic matter

biodegradation

solubilization

landuse

soil depth

seasonal variability

Waste activated sludge pre-treatment with chlorine dioxide: its impact on pre-existing sludge bulking and its effect on solubilization and anaerobic digester performance

Olubodun, Abisola

16 September 2016

A number of advanced pre-treatment techniques and methods have been evaluated for the sole purpose of improving digestibility of waste activated sludge. The pre-treatment of waste activated sludge (WAS) offers the benefit of releasing solubilized substrates, making them readily available to be utilized in the anaerobic digestion process. Other potential benefits include: reducing shock loading to the digester, improving overall digestibility and potentially providing filament / foaming control. Chlorine dioxide, a well-known disinfectant and oxidizing agent has been utilized in many drinking water processes around the world. Its use in wastewater treatment processes however is limited; especially in Canada where legislation has prevented its use for final effluent disinfection. As an oxidizing agent, chlorine dioxide induces cell rupture resulting in the release of soluble material, which when fed into the digester, may serve as readily available substrate for active microorganisms. This mode of action creates the potential for chlorine dioxide to be used as a sludge pre-treatment agent to improve digester performance and in alleviating pre-existing filamentous sludge bulking. This study was conducted using waste activated sludge obtained from the City of Winnipeg’s South End Water Pollution Control Centre (SEWPCC), with the following objectives: 1. Determine the efficacy of chlorine dioxide in alleviating pre-existing filamentous sludge bulking; 2. Determine chlorine dioxide ability to increase WAS solubilization; and 3. Define impact of chlorine dioxide on anaerobic digester performance. WAS pre-treatment using chlorine dioxide was found to be effective in alleviating filamentous bulking. This is significant as filamentous bulking in the activated sludge may lead several problems downstream. Following pre-treatment, sludge bulking was determined to be alleviated as observed by photomicrographic evidence and as measured by a 57% decrease in the stirred sludge volume index (sSVI). Particulate COD solubilization increased by 60%, 76%, and 74% over the untreated sludge for WAS pre-treated with 25, 50, and 100 mg ClO2/L (v/v), respectively. The pre-treatment of sludge using chlorine dioxide did not have any negative impact on digester performance although it also did not lead to improved performance. The volatile solids destruction and COD removal remained unchanged for both untreated and pre-treated sludge. Chlorine dioxide pre-treatment did not affect anaerobic digestion even at the lowest SRT evaluated; it is possible to decrease the digester SRT to as low as 6 days while maintaining the solids destruction and COD removal capability. Biogas production did not improve with increasing chlorine dioxide dosage during pre-treatment but also was not hindered by the pre-treatment agent. Chlorine dioxide was shown to alleviate filamentous bulking and improve solubility and has the potential to improve digester performance without negative impacts to the digester. However, the full benefit of the pre-treatment method may only be realized for complex “difficult to disintegrate” sludge types. / October 2016

Tensioactifs d’origine naturelle pour la solubilisation de principes actifs : synthèse, physico-chimie et toxicité / Natural-based surfactants for drug solubilization : synthesis, physico-chemical properties and toxicity

Ménard, Nathalie

02 December 2011

L’objectif de ce travail de thèse est de développer de nouveaux agents tensioactifs, capables de s’auto-assembler sous forme de micelles permettant de solubiliser les principes actifs insolubles, en vue de leur administration par voie intraveineuse. Cette étude a permis la synthèse, la caractérisation physico-chimique ainsi que l’évaluation toxicologique in vitro et in vivo de nouveaux agents tensioactifs d’origine naturelle. Au cours de cette étude, différentes familles de tensioactifs ont été évaluées. Ces nouveaux agents tensioactifs sont composés d’une partie hydrophobe de type cholestérol, sels biliaires ou lipides, associée via une fonction amide à une partie hydrophile dérivée d’acides aminés tels que la lysine, la glutamine ou l’acide glutamique.Ces travaux expérimentaux ont permis d’étudier l’influence de la flexibilité de la partie hydrophobe sur la capacité de solubilisation des tensioactifs. Cette étude a montré que l’efficacité de solubilisation est reliée à la flexibilité de la partie hydrophobe. L’utilisation d’agents tensioactifs composés d’une chaîne lipidique saturée flexible a permis de solubiliser efficacement le principe actif insoluble avec un taux de charge de 46 % (m/m). Les tensioactifs composés de lipides saturés sont donc plus efficaces en termes de solubilisation que les dérivés de stéroïdes ou de lipides polyinsaturés, moins flexibles. Les études de toxicité ont mis en évidence la relation ente la structure chimique des tensioactifs et leur toxicité, en particulier vis-à-vis des membranes cellulaires. L’introduction de doubles liaisons en configuration cis dans la partie lipidique des tensioactifs permet de diminuer leur interaction avec les membranes cellulaires et donc leur toxicité mais diminue également leur capacité de solubilisation. Le développement de nouveaux agents tensioactifs nécessite donc de trouver un compromis entre la capacité de solubilisation et la toxicité des tensioactifs. / The aim of this thesis was to develop novel surfactants, able to self-assemble into micelles and to solubilize insoluble drugs intented for intravenous injection. Natural-based surfactants were synthesized and their physico-chemical properties were evaluated. In addition, their in vitro and in vivo toxicity were evaluated. Their drug solubilization abitity was also investigated. Three surfactant classes were evaluated. They were composed of a hydrophobic moiety, such as cholesterol, bile salts or lipids, bonded to a hydrophilic moiety, deriving from amino acids, such as lysine, glutamine or glutamic acid, via an amide bond.The influence of surfactant hydrophobic moiety flexibility on drug solubilization ability was evaluated. This study evidenced that solubilization efficiency is related to the surfactant hydrophobic moiety flexibility. The use of surfactants with flexible and saturated lipidic moieties increased drug water solubility with a drug loading of 46 % (w/w). Saturated lipid-based surfactants exhibited a better solubilization efficiency, in comparison with steroid-based surfactants or poly-unsaturated-based surfactants. Toxicity studies evidenced the relation between surfactant chemical structure and their toxicity, in particular with cell membranes. The introduction of double bond in cis configuration in surfactant lipidic moiety decreased their interaction with cell membranes and thus their toxicity. In addition, this chemical modification also decreased their solubilization ability. To develop novel surfactants, it is thus necessary to take into account drug solubilization ability and toxicity of surfactants.

Principe actif insoluble

Toxicité

Intraveineuse

Surfactant

Micelle

Self-assembling

Solubilization

– Insoluble drug

Toxicity

Amino acid

Lipid

Correlações entre as frações de fósforo do solo e o microbioma rizosférico da cana-de-açúcar / Correlations between the phosphorus fractions of soil and rhizosphere microbiome of sugarcane

Costa, Diogo Paes da

21 December 2016

O fósforo é um elemento-chave para a manutenção da vida, desde os processos de transferência energética (ATP) até a estruturação das cadeias de ácidos nucléicos. Frequentemente é o que mais limita o desenvolvimento vegetativo em função da alta reatividade do PO43- na solução do solo. Mais de 80% do P adicionado ao solo pode ser imobilizado na forma de compostos de baixa labilidade, adsorvendo-se as superfícies das argilas e dos oxi-hidróxidos de Fe3+ e Al3+, processo irreversível em condições naturais. A solubilização do P não lábil às plantas é possível mediante a liberação de ácidos orgânicos sintetizados por micro-organismos nativos do solo, os quais também contribuem efetivamente com a mineralização do P orgânico através da produção de enzimas (fosfatases), entretanto, esses mecanismos ainda são pouco conhecidos. O principal objetivo desse estudo foi correlacionar as possíveis mudanças nas frações orgânicas (Po) e inorgânicas (Pi) de fósforo no solo rizosférico de plantas de cana-de-açúcar com a estrutura e a diversidade do seu microbioma. Para tanto, as plantas foram cultivadas durante 180 dias em diferentes microcosmos com fosfato monoamônico (MAP), superfosfato triplo (SFT) e fosfato natural reativo (NAT), tanto na ausência quanto na presença da torta de filtro. As diferentes frações de fósforo no solo rizosférico foram correlacionadas com os dados moleculares baseados no sequenciamento parcial dos amplicons do gene 16S rRNA obtidos do DNA total extraído desses solos. Aos 60 dias, houve uma maior diversidade geral de bactérias, sendo um período com altos teores de P-lábil na rizosfera, beneficiando principalmente as bactérias de hábitos copiotróficas (r-estrategistas): divisão Halophaga/Acidobacterium, Chloracidobacteria e Bacilli. A diminuição da diversidade aos 120 dias ocorreu como resposta da redução dos teores de P-lábil na rizosfera, beneficiando mais as bactérias oligotróficos (k-estrategistas): Actinobacteria e Proteobacterias. A associação da torta de filtro com o MAP revelou fortes indícios do aumento do processo de mineralização na superfície do solo, uma vez que houve rápida liberação de P lábil para a rizosfera. Isso teria aumentado a atividade de micro-organismos envolvidos na mineralização da torta de filtro, havendo forte correlação com o aumento da população de &beta;-Proteobacteria aos 120 dias. Neste período, as Proteobacterias foram mais abundantes nos solos com NAT+torta. Isso explicaria o incremento de P moderadamente lábil desse tratamento aos 180 dias, pois esse filo possui várias espécies capazes de solubilizar o P ligado ao Ca, presente nos fosfatos de rocha. No geral, a torta de filtro alterou a solubilização e disponibilidade do P nas fontes minerais de modo diferente, contribuindo com os incrementos tanto das frações de Po como as de Pi. Esses resultados demonstraram que as bactérias participam ativamente dos processos de disponibilização do P de fontes minerais no solo. Nessas condições, a torta de filtro pode modular essas transferências, em benefício às plantas, por estimular a atividade de micro-organismos solubilizadores de P e mineralizadores da matéria orgânica do solo. / Phosphorus is a key element for the maintenance of life from the energy transfer processes (ATP) to the structuring of chains of nucleic acids. Often, it is more limited vegetative growth due to the high reactivity of PO43- in the soil solution. Up to 80% of P added to the soil can be immobilized as low-labile compounds adsorbing to the clay surfaces and oxy-hydroxides of Fe3+ and Al3+, irreversible process under natural conditions. Solubilization of non-labile P by plants may be carried out for organic acids synthesized by native soil microorganisms, which also effectively contribute for mineralization of organic P through the production of enzymes (phosphatases) although these mechanisms are still poorly understood. The main objective of this study was to correlate the changes in the organic (Po) and inorganic (Pi) fractions of P in the rhizosphere of sugarcane plants with the structure and diversity in their microbiome. Therefore, the plants were grown for 180 days in different microcosms with monoammonium phosphate (MAP), triple superphosphate (TSP) and rock phosphate (NAT), both in absence and in presence of the filter cake. The different P fractions in the rhizosphere soil were correlated with the molecular data based on the partial sequencing of 16S rRNA gene amplicons obtained from total DNA extracted from soils. At 60 days, there was a greater overall diversity of bacteria, it is a period with high labile-P in the rhizosphere, especially benefiting the copiotrophic bacteria (r-strategists): Halophaga/Acidobacterium division, Chloracidobacteria and Bacilli. The decrease in diversity at 120 days occurred in response to the reduction of labile-P content in the rhizosphere, more benefiting oligotrophic bacteria (k-strategists): Actinobacteria and Proteobacteria. The association filter cake with MAP showed strong evidence of increased mineralization process on the soil surface, since there was rapid release of labile P to the rhizosphere. It would have increased the activity of microorganisms involved in the mineralization of the filter cake with a strong correlation with increase in &beta;-Proteobacteria population at 120 days. Then, Proteobacteria were more abundant in soils with NAT+filtercake at 120 days. That would explain the increases in moderately labile P content this treatment at 180 days, because this phylum has several species capable of solubilizing the P linked to Ca present in rock phosphates. In general, filter cake changed solubilization and availability of P in mineral sources of different ways, contributing to the increments of Po and Pi fractions. These results showed that bacteria participate in the processes that afford phosphorus in the soil. Under these conditions, the filter cake can modulate these transfers in beneficial to plants by stimulating the activity of P solubilizing microorganisms and mineralizing the soil organic matter.

Diversidade

Diversity

Ecologia microbiana

Fósforo

Microbial ecology

Phosphor

Rhizosphere

Rizosfera

Solubilização

Solubilization

Influência do grau de etoxilação no comportamento de álcoois secunários etoxilados / The influence of ethoxylation degree in the behaviour of secondary alcohol ethoxylates

Argenton, André Bozzo

24 April 2009

A solubilização de solutos não iônicos através de um processo de partição entre água e a pseudo-fase micelar de tensoativos não iônicos foi estudada para álcoois secundários etoxilados com grau de etoxilação variando entre 7 e 40. Mostrou-se que o coeficiente de incorporação micelar, Ks, é independente do grau de etoxilação o que corrobora a hipótese de que a partição ocorre entre água e o núcleo hidrocarbônico da micela, que não é alterado pelo aumento do número de grupos de óxido de eteno na cabeça polar do tensoativo. O uso de relações lineares de energia livre, LSER, para a predição da capacidade de solubilização de álcoois secundários etoxilados forneceu, através de regressão múltipla linear a seguinte LSER como melhor modelo: log Ks = -0,42 + 1,21E - 1,73S -0,40A - 1,13B + 3,01V com R2 = 0,98 e valor de teste F de 1390. Nesta equação, V é o volume molar do soluto, A e B são a capacidade do soluto de atuar como doador e aceptor de pontes de hidrogênio, E é a refração molar em excesso e S representa a capacidade do soluto de interagir com o meio de solubilização através de interações do tipo dipolo-dipolo e dipolo-dipolo induzido. Mostrou-se que processos de limpeza aplicados à remoção de sujidades de tecidos e superfícies sólidas não estão correlacionados ao mecanismo de solubilização descrito por um processo de partição. A dependência da redução de tensão interfacial com o grau de etoxilação sugere que a eficiência de limpeza, para superfícies sólidas e para tecidos, está correlacionada de maneira direta, mas não linear, com a capacidade do tensoativo de concentrar-se na interface \"sujidade-solução aquosa de tensoativo\" reduzindo assim a tensão interfacial entre os dois meios. / The solubilization of non-ionic solutes via partitioning between water and the micellar pseudophase of non-ionic surfactants was evaluated for a series of secondary alcohol ethoxylates with hydrophile length varying from 7 to 40 ethylene oxide units. It was demonstrated that the micellar incorporation constant, Ks, is not dependent on the hydrophile length of the surfactant. The results obtained in this study support the hypothesis that the partitioning between water and the micellar core is not disturbed by the etheylene oxide hydrophilic groups. Linear solvation free energy relationships, LSER, were used to model the ability of the surfactants to solubilize non-ionic compounds. Multiple linear regression analysis provided the following LSER with R2 of 0.98 and F value of 1390: logK = -0,42 + 1,21E - 1,73S - 0,40A - 1,13B + 3,01V. In this LSER, V is a descriptor of solute molar volume, A and B capture the overall ability of the solute to act as a hydrogen bond donor and acceptor, E is the solute excess molar refraction and S is a descriptor of the ability of the solute to interact via dipole-dipole and dipole-induced dipole interactions with its surroundings. It was demonstrated that hard and soft surface cleaning efficiencies are not correlated with the solubilization process. It was shown, however, that the change in interfacial tension caused by the change in the hydrophile portion of the surfactants has a direct, but non-linear impact on the cleaing properties of aqueous solutions containing these surfactants.

Detergentes

Detergents

Físico-química orgânica

LSER

LSER

Organic physico-chemical

Solubilização

Solubilization

Surfactant

Tensoativo

Incorporação de solutos não iônicos em micelas de alquil óxido de difenila dissulfonados / Incorporation of non ionic solutes in alkyl diphenyloxide disulfonate micelles

Argenton, André Bozzo

17 September 2003

A solubilização de compostos não iônicos em micelas de detergentes é uma propriedade intensamente estudada e de grande importância prática. Algumas das aplicações onde a compreensão da solubilização é relevante são detergência, recuperação de solos contaminados e catálise. Em trabalho anterior, o grupo do prof. Quina demostrou que o modelo de relações lineares de energia livre (LSER) é uma poderosa ferramenta para correlação da eficiência de solubilização com parâmetros relacionados com a estrutura do soluto. No presente trabalho, constantes de incorporação micelar, Ks, foram determinadas experimentalmente para uma série de solutos de diferentes estruturas para os detergentes comerciais decil óxido de difenila dissulfonado (DOWFAX C10) e hexadecil óxido de difenila dissulfonado (DOWFAX C16). Verificou-se, para esses detergentes, que a variação do log Ks com o volume molar, Vx, do soluto é distinta para classes homólogas de solutos polares (álcoois e cetonas) e apolares (alcanos, aromáticos e alcinos), indicando a existência de microambientes de solubilização distintos A demonstração, neste trabalho, de que o modelo de LSER não é apropriado para correlacionar dados de Ks, na presença de mais de um microambiente de solubilização, aumenta a validade de estudos prévios, com detergentes de estrutura mais simples, onde a suposição de um único microambiente de solubilização mostrou-se adequada. / The solubilization of non ionic molecules in detergent micelles is a property that has been extensively investigated and that is of great practical importance. Several applications in which solubilization is of relevance are detergency, remediation of contaminated soils and catalysis. In earlier work, the group of Prof. Quina has shown that linear free energy relationships (LSER) are a powerful tool for correlating the efficiency of solubilization with the structure of the solute. In the present work, micellar incorporation coefficients, Ks, were determined for solubilization of a series of solute of diverse structures in two commercial detergents: decyl diphenyl oxide disulfonate (DOWFAX C10) and hexadecyl diphenyl oxide disulfonate (DOWFAX C16). For these detergents it is shown that the dependence of log Ks on solute molar volume is distinct for homologues series of polar (alcohols and ketones) and non-polar (alkanes, alkynes and aromatics) solutes, implying the existence of distinct solubilization microenvironments for these two classes of solutes. The demonstration in the present work that the LSER approach fails to correlate Ks data when more than one solubilization microenvironment is present reinforces the validity of previous studies with detergents of simpler structure where the assumption of a single solubilization microenvironment was found to be adequate.

Detergentes (estudo)

Físico-química orgânica

LSER

LSES

Solubilização

Solubilization

Surfactantes (Estudo)

Surfactants

Tensoativos (Estudo)