Atividade da própolis verde contra o fitopatógeno Pythium aphanidermatum e análise da interação do composto majoritário Artepillin C com sistemas biomiméticos de membranas / Activity of green propolis against the phytopathogen Pythium aphanidermatum and analysis of the interaction of the majority compound Artepillin C with membrane biomimetic systems

Pazin, Wallance Moreira

21 March 2016

O aumento da resistência microbiana devido a fatores como uso excessivo e ineficiente de antibióticos convencionais acarreta a necessidade da busca por novos compostos bioativos que atuem por mecanismos de ação diferentes aos fármacos já conhecidos. Na agricultura, o uso intensivo de pesticidas para o combate de microrganismos que comprometem principalmente a parte alimentícia também traz diversos problemas relacionados à resistência antimicrobiana e a riscos ambientais, oriundos do acúmulo dessas substâncias no solo. Dentro deste aspecto, o pseudofungo Pythium aphanidermatum, da classe dos oomicetos, destaca-se por ser uma espécie agressiva e altamente resistente a fungicidas comuns, apodrecendo raízes e frutos de cultivos de tomate, beterraba, pepino, pimentão, etc. A própolis verde, constituída em sua grande parte por material resinoso coletado e processado pela abelha da espécie Apis mellifera tem sido utilizada na medicina tradicional devido ao seu amplo espectro de ações preventivas e tratamentos de doenças, possuindo propriedades anti-inflamatórias, antimicrobianas, anticancerígenas e antioxidantes, tornando-se um produto de grande interesse na busca de novos compostos bioativos. Dentro destes aspectos apresentados, neste trabalho investigamos a ação da própolis verde contra o fitopatógeno P. aphanidermatum e identificamos através da técnica de cromatografia e bioensaios que a Artepillin C (3,5-diprenil-4-ácido-hidroxicinâmico), majoritária na própolis verde, foi o principal composto nesta ação. Os efeitos terapêuticos desta molécula tem sido foco de muitos estudos, porém ainda não há evidência em sua interação com agregados anfifílicos que mimetizam membranas celulares. O caráter anfifílico do composto, elevado pela presença dos grupos prenilados ligados ao ácido cinâmico, favoreceram a sua inserção nas membranas modelo, principalmente em seu estado agregado. Estas conclusões puderam ser inferidas devido às alterações nas propriedades das bicamadas lipídicas na presença da Artepillin C, podendo causar, especificamente para o caso de fitopatógenos como o P. aphanidermatum, perdas funcionais das proteínas de membranas, liberação de eletrólitos intracelulares e desintegração citoplasmática dos micélios e esporos. Ainda, as diferentes composições lipídicas nas vesículas influenciam no modo de interação do composto e consequentes alterações em suas estruturas, principalmente na presença do colesterol, que auxilia na manutenção da permeabilidade da bicamada lipídica, que pode contribuir para a integridade do conteúdo citoplasmático da célula. / The increase in the microbial resistance due to the excessive and inefficient use of conventional antibiotics brings the necessity to search new bioactive compounds which play their mechanism of action differently from the known drugs. In the agriculture, the intensive use of pesticide for the combat of microorganisms which undermine mainly the food portion also brings several issues related to the antimicrobial resistance and environment risks, originated from the high amount of these substances on the soil. In this aspect, the fungus-like Pythium aphanidermatum microorganism, from class Oomycete, stands out for being an aggressive species and highly resistant to common fungicides, rotting roots and fruits of tomato, beet, cucumber, pepper, etc. Green propolis, constituted by resinous material collected and processed by bees of the species Apis mellifera, has been used in the traditional medicine due its wide spectrum of preventive actions and diseases treatments, promoting anti-inflammatory, antimicrobial, anticancer and antioxidant properties, becoming a product of interest for investigation in the research of new bioactive compounds. Under all the aspects showed so far, in this work we investigated the action of the green propolis against the phytopathogen P. aphanidermatum and identified through chromatography and bioassays that Artepillin C (3,5-diprenyl-4-hydroxycinnamic acid), majority in the green propolis, was the main compound in this action. The therapeutic effects of this molecule have been the focus of several studies, but, so far there is no evidence for its interaction with amphiphilic aggregates that mimic cell membranes. The amphiphilic character of the compound, enhanced by the presence of two prenylated groups bounded to the cinnamic acid, favors the insertion of the compound in the model membranes mainly in its aggregation state. These conclusions could be inferred due the alterations in the properties of the lipid bilayer in the presence of Artepillin C, that may cause, specifically in the case of phytopathogens like P. aphanidermatum, functional losses of membrane proteins, releasing of intracellular electrolytes and cytoplasmatic disintegration of mycelium and spores. Moreover, the difference of the lipid composition in the vesicles influence in the action of the compound and consequent alteration in their structures, mainly in the presence of cholesterol, that provides the maintenance of permeability of the lipid bilayer, contributing to the integrity of the cytoplasmic material of the cell.

Pythium aphanidermatum

Pythium aphanidermatum

Artepillin C

Artepillin C

bioensaios

Green Propolis

membranas modelo

model membranes

oomicetos

oomycetes; bioassays

Própolis Verde

sistema ternário

ternary system.

Atividade da própolis verde contra o fitopatógeno Pythium aphanidermatum e análise da interação do composto majoritário Artepillin C com sistemas biomiméticos de membranas / Activity of green propolis against the phytopathogen Pythium aphanidermatum and analysis of the interaction of the majority compound Artepillin C with membrane biomimetic systems

Wallance Moreira Pazin

21 March 2016

O aumento da resistência microbiana devido a fatores como uso excessivo e ineficiente de antibióticos convencionais acarreta a necessidade da busca por novos compostos bioativos que atuem por mecanismos de ação diferentes aos fármacos já conhecidos. Na agricultura, o uso intensivo de pesticidas para o combate de microrganismos que comprometem principalmente a parte alimentícia também traz diversos problemas relacionados à resistência antimicrobiana e a riscos ambientais, oriundos do acúmulo dessas substâncias no solo. Dentro deste aspecto, o pseudofungo Pythium aphanidermatum, da classe dos oomicetos, destaca-se por ser uma espécie agressiva e altamente resistente a fungicidas comuns, apodrecendo raízes e frutos de cultivos de tomate, beterraba, pepino, pimentão, etc. A própolis verde, constituída em sua grande parte por material resinoso coletado e processado pela abelha da espécie Apis mellifera tem sido utilizada na medicina tradicional devido ao seu amplo espectro de ações preventivas e tratamentos de doenças, possuindo propriedades anti-inflamatórias, antimicrobianas, anticancerígenas e antioxidantes, tornando-se um produto de grande interesse na busca de novos compostos bioativos. Dentro destes aspectos apresentados, neste trabalho investigamos a ação da própolis verde contra o fitopatógeno P. aphanidermatum e identificamos através da técnica de cromatografia e bioensaios que a Artepillin C (3,5-diprenil-4-ácido-hidroxicinâmico), majoritária na própolis verde, foi o principal composto nesta ação. Os efeitos terapêuticos desta molécula tem sido foco de muitos estudos, porém ainda não há evidência em sua interação com agregados anfifílicos que mimetizam membranas celulares. O caráter anfifílico do composto, elevado pela presença dos grupos prenilados ligados ao ácido cinâmico, favoreceram a sua inserção nas membranas modelo, principalmente em seu estado agregado. Estas conclusões puderam ser inferidas devido às alterações nas propriedades das bicamadas lipídicas na presença da Artepillin C, podendo causar, especificamente para o caso de fitopatógenos como o P. aphanidermatum, perdas funcionais das proteínas de membranas, liberação de eletrólitos intracelulares e desintegração citoplasmática dos micélios e esporos. Ainda, as diferentes composições lipídicas nas vesículas influenciam no modo de interação do composto e consequentes alterações em suas estruturas, principalmente na presença do colesterol, que auxilia na manutenção da permeabilidade da bicamada lipídica, que pode contribuir para a integridade do conteúdo citoplasmático da célula. / The increase in the microbial resistance due to the excessive and inefficient use of conventional antibiotics brings the necessity to search new bioactive compounds which play their mechanism of action differently from the known drugs. In the agriculture, the intensive use of pesticide for the combat of microorganisms which undermine mainly the food portion also brings several issues related to the antimicrobial resistance and environment risks, originated from the high amount of these substances on the soil. In this aspect, the fungus-like Pythium aphanidermatum microorganism, from class Oomycete, stands out for being an aggressive species and highly resistant to common fungicides, rotting roots and fruits of tomato, beet, cucumber, pepper, etc. Green propolis, constituted by resinous material collected and processed by bees of the species Apis mellifera, has been used in the traditional medicine due its wide spectrum of preventive actions and diseases treatments, promoting anti-inflammatory, antimicrobial, anticancer and antioxidant properties, becoming a product of interest for investigation in the research of new bioactive compounds. Under all the aspects showed so far, in this work we investigated the action of the green propolis against the phytopathogen P. aphanidermatum and identified through chromatography and bioassays that Artepillin C (3,5-diprenyl-4-hydroxycinnamic acid), majority in the green propolis, was the main compound in this action. The therapeutic effects of this molecule have been the focus of several studies, but, so far there is no evidence for its interaction with amphiphilic aggregates that mimic cell membranes. The amphiphilic character of the compound, enhanced by the presence of two prenylated groups bounded to the cinnamic acid, favors the insertion of the compound in the model membranes mainly in its aggregation state. These conclusions could be inferred due the alterations in the properties of the lipid bilayer in the presence of Artepillin C, that may cause, specifically in the case of phytopathogens like P. aphanidermatum, functional losses of membrane proteins, releasing of intracellular electrolytes and cytoplasmatic disintegration of mycelium and spores. Moreover, the difference of the lipid composition in the vesicles influence in the action of the compound and consequent alteration in their structures, mainly in the presence of cholesterol, that provides the maintenance of permeability of the lipid bilayer, contributing to the integrity of the cytoplasmic material of the cell.

Pythium aphanidermatum

Artepillin C

bioensaios

membranas modelo

oomicetos

Própolis Verde

sistema ternário

Pythium aphanidermatum

Artepillin C

Green Propolis

model membranes

oomycetes; bioassays

ternary system.

Estabilidade de fases em ligas Mo-B-Si ricas em molibdenio

Nunes, Carlos Angelo

02 July 1997

Orientador: Ana Maria Martinez Nazar / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecanica / Made available in DSpace on 2018-07-22T16:31:39Z (GMT). No. of bitstreams: 1 Nunes_CarlosAngelo_D.pdf: 12292935 bytes, checksum: ea1a755d6645281ed644bfe2879a287c (MD5) Previous issue date: 1997 / Resumo: Em trabalhos recentes têm-se proposto que materiais formados por um metal refratário em equilíbrio com uma fase intermetálica constituem a melhor opção para aplicações estruturais em temperaturas acima de 1400°C. Baseado em informações disponíveis na literatura foi identificada a existência de um campo bifásico envolvendo as fases Mo (solução sólida) e o intermetálico 'Mo IND. 5¿ ¿Si¿ ¿B IND. 2¿ ('T IND. 2¿) A 1600 º C no sistema Mo-B-Si. Tendo em vista o limitado número de informações relacionadas a este sistema objetivamos neste trabalho uma avaliação sistemática sobre estabilidade de fases na região rica em Mo. O trabalho consistiu em: determinar a relação de fases a 1600°C; desenvolver métodos de análise via microssonda eletrônica (WDS) para determinação da composição das fases; determinação da projeção liquidus; determinação da seção vertical Mo-'T IND. 2¿.A determinação da relação de fases a 1600°C confmnou a existência do campo bifásico Mo+ 'T IND. 2¿ naquela temperatura.A fase ternária 'T IND. 2¿ é rodeada pelos campos trifásicos ... Observação: O resumo, na íntegra, poderá ser visualizado no texto completo da tese digital / Abstract: In recent investigations it has been proposed that equilibrium microstructures constituted by a refractory metal and an intermetallicphase are the best choice for high temperature structural applications at temperatures higher than 1400°C. Based on the information available in the literature it has been identified the existence of a Mo (solid solution) + intermetallic 'Mo IND. 5¿ ¿Si¿ ¿B IND. 2¿ two-phase field in the Mo-B-Si system. Considering the limited information related to this system it was the objective of this study to systematically evaluate the phase stability in the Mo-rich region. Specific objectives were: determination of the phase relations at 1600°C; development of microprobe methods of analysis to determine phase compositions; determination of the liquidus projection; determination of the Mo-'T IND. 2¿ vertical section. The Mo+ 'T IND. 2¿ two-phase field was confirmed to exist at 1600°C. The ternary phase ('T IND. 2¿) is surrounded by the following three-phase field ... Note: The complete abstract is available with the full electronic digital thesis or dissertations / Doutorado / Materiais e Processos de Fabricação / Doutor em Engenharia Mecânica

Molibdênio

Sistema ternário

Compostos intermetálicos

Diagramas de fase

Equilibrio

Molybdenum

Ternary system

Intermetallic compounds

Phase diagrams

Rapid quenching processing of metals

Equilibrium

Spektrofotometrické stanovení fosforečnanů v ternárních systémech s barvivy / Spectrophotometric determination of phosphate in ternary systems with dyes

Novotný, Radek

January 2014

The theoretical part of this master’s thesis is focused on the characteristics and forms of phosphorus, occurrence in natural waters and the problems associated with higher phosphorus concentrations, especially in the development of cyanobacteria and algae. There are also described the possibilities of determining the degree of pollution of natural waters by nutrients and the effects of eutrophication. There are also described methods for the determination of phosphates, especially spectrophotometric determination in ternary systems with dyes. Like other methods are mentioned AAS, ion chromatography, electrophoresis and izotachophoresis, electrochemical methods or enzymatic methods. In the experimental part of this work deals with the selection and optimalization of suitable ternary system with organic dyes for spectrophotometric determination of orthophosphates. The system with phosphovanadomolybdic acid is studied too. For analytical procedure with malachite green oxalate, which was found to be most useful, were studied interfering ions, commonly occurring in natural waters . The chosen procedure was finally tested on real water samples.

Thermodynamics And Phase Equilibria In The Systems Involving Electronic Materials

Acharya, Sibasis

08 1900

No description available.

Semiconductors

Al-Bi-Sb Ternary System

Thermodynamics

Phase Equilibrium

Electronic Materials

Al-Bi-Sb System

Binary Systems

Phase Equilibria

Nano Phases

Ga-In-As-Sb System

AI-Ga-P-As System

Solid-Liquid Equilibria

Electronic Engineering

Stability of sodium sulfate dicarbonate (~2Na₂CO₃• Na₂SO₄) crystals

Bayuadri, Cosmas

23 May 2006

Research on salts species formed by evaporation of aqueous solution of Na2 in the early 1930s. The thermodynamic, crystallographic and many other physical and chemical properties of most of the species formed from this solution has been known for decades. However, there was no complete information or reliable data to confirm the existence of a unique double salt that is rich in sodium carbonate, up until five years ago when a research identified the double salt (~2Na ₂ CO ₃ • Na ₂ SO ₄) from the ternary system Na₂CO ₃Na₂SO ₄ H₂O. Crystallization of this double salt so called sodium sulfate dicarbonate (~2Na ₂ CO ₃ • Na ₂ SO ₄) is known to be a primary contributor to fouling heat transfer equipment in spent-liquor concentrators used in the pulp and paper industry. Therefore, understanding the conditions leading to formation of this double salt is crucial to the elimination or reduction of an industrial scaling problem. In this work, double salts were generated in a batch crystallizer at close to industrial process conditions. X-ray diffraction, calorimetry, and microscopic observation were used to investigate the stability of the salts to in-process aging, isolation and storage, and exposure to high temperature. The results show that care must be taken during sampling on evaporative crystallization. Two apparent crystal habits were detected in the formation of sodium sulfate dicarbonate; the favored habit may be determined by calcium ion impurities in the system. The results also verify that sodium sulfate dicarbonate exists as a unique phase in this system and that remains stable at process conditions of 115-200℃

Black liquors

Burkeite

Concentrator

Crystal

Crystal habit

Crystal shape

Crystallization

Differential scanning calorimetry

Double salts

Evaporative crystallization

Evaporators

Fouling

Hexagonal

Hydrothermal stability

Metastable limit

Na ₂ CO ₃

Na ₂ SO ₄

Polarized light microscopy

Powder x-ray diffraction

Scale

Sodium carbonate

Solid solution

Soluble scale

Spent pulping liquor

Supersaturation

Ternary system

Thermonatrite

Diffusion Studies On Systems Related to Nickel Based Superalloys

Divya, V D

07 1900

Superalloys offer high temperature strength, excellent creep, corrosion and oxidation resistances, microstructural stability and good fatigue life at elevated temperatures. The composition of the superalloys has been modified continuously to improve the properties. The addition of Pt improves oxidation resistance without compromising the mechanical properties of the superalloys. To further enhance the performance of the superalloy components, various coatings are applied on them. The-(NiPt)Al intermetallic compound bond coats, which are presently utilized, have certain drawbacks. Diffusion of Al from the bond coat to superalloy during service leads to accumulation of stress near the bond coat. The refractory elements present in superalloy precipitate as topological close packed (TCP) phases in the interdiffusion zone. Consequently, a Pt enriched γ(Ni) + γ’(Ni3Al) phase mixture has been proposed as a possible alternative since TCP phases do not form in the interdiffusion zone. In this thesis, diffusion studies are performed on several binary and ternary systems with the primary purpose of understanding the effect of Pt in Ni based superalloys and also in γ + γ’ phase mixture bond coats. Further, a detailed interdiffusion study is conducted in Mo- and W- based binary and ternary systems to understand the growth of the TCP phases. By performing bulk and multifoil diffusion couple experiments, different diffusion parameters like, inter, intrinsic, tracer, impurity diffusion coefficients and activation energy that are necessary to understand the diffusion mechanism are determined. Additionally using the nanoindentation technique on diffusion couples, variation of mechanical properties such as, hardness and modulus with composition is studied. First, interdiffusion in Ni-Pt, Co-Pt, Co-Ni, Ni-Fe and Co-Fe binary systems is examined. In Ni-Pt and Co-Pt, experimental results show that Pt is the slower diffusing species at all compositions. In both the systems, driving force is found to be the reason for higher values of intrinsic diffusion coefficients observed in the range of 40-60 at. % Pt. Contribution of vacancy wind effect on diffusion parameters is found to be negligible. It is found from the multifoil diffusion couple experiments that Ni is the faster diffusing species in the Co-Ni system. Bulk diffusion couple experiments are conducted in the Co-Ni-Pt and Co-Ni-Fe systems, by coupling binary alloys with the third element. Uphill diffusion is observed for Co and Ni in Pt rich corner of the Co-Ni-Pt system. Main and cross interdiffusion coefficients are calculated at the compositions where two diffusion profiles intersect. In both the systems, the main interdiffusion coefficients are positive over the whole composition range and the cross diffusion coefficients show both positive and negative values at different regions. Hardness measured by performing the nanoindentations on diffusion couples of both the systems, shows the higher values at intermediate compositions. The effect of Pt in and’ phases of Ni-Al system are examined by conducting interdiffusion experiments between Ni(xPt) alloys and (NixPt)40Al alloy of β phase, so that both and’ phases grow in the interdiffusion zone. The interdiffusion coefficients in Ni-Al binary system increases with the Al content in the -phase, and they do not vary significantly with composition in the ’ phase. The average effective interdiffusion coefficients of Ni and Al in the and ’ phases increase with the addition of Pt. Nanoindentation studies on diffusion couples show that the hardness of both and ’ phase increases with the addition of Pt. In the +’ phase mixture bond coats, effect of Pt on interdiffusion of major alloying elements of CMSX4 superalloys are discussed. A phase mixture of and ’ with increasing Pt content is coupled with CMSX4 superalloy. The addition of Pt to the +’ phase mixture increases the diffusion rate of Ni, while the diffusion rate of Al, decreases with the addition of 5% Pt, and increases with further addition of Pt. No significant change in the diffusion rates of Co or Cr is observed. The growth kinetics and diffusion in systems (both binary and ternary) with TCP phases are examined. Interdiffusion studies performed in Co-Mo system show significant volume change because of the growth of the phase. Intrinsic diffusion coefficient of Mo is found to be higher than that of Co. Diffusion studies conducted in Ni-Mo system show reasonably low activation energy in the phase, indicating the grain boundary controlled diffusion process. The Co-Ni-Mo and Co-Ni-W ternary phase diagrams are revisited and the phase boundary composition of the TCP phases are found to be different from those reported earlier. Following, the average effective interdiffusion coefficients are calculated and compared with the data calculated in the binary systems to examine the role of the third element. It is noticed that the average effective interdiffusion coefficients in the Co(Ni,Mo) and Co(Ni,W) solid solution increases with the addition of Ni. On the other hand, these diffusion coefficients decrease with the addition of Ni in thephase in both the systems. The role of the driving force for diffusion and possible change in defect concentrations on different sublattices are discussed.

Nickel Based Superalloys

Superalloys

Co-Ni System

Ni-Al-Pt Ternary System

Co-Ni-Mo System

Co-Ni-W Systems

Ni-Pt Systems

Co-Pt Systems

Ni-Mo System

Co-Mo System

Ni-Pt-Al System

Ni-Co-Pt Systems

Ni-Co-Fe Ternary Systems

Metallurgy

In situ studies of uranium-plutonium mixed oxides : Influence of composition on phase equilibria and thermodynamic properties / Etudes in situ des oxydes mixtes d'uranium et de plutonium : Influence de la composition sur les équilibres de phase et les propriétés thermodynamiques

Strach, Michal

29 September 2015

En raison de leurs propriétés chimiques et physiques, les oxydes mixtes d'uranium et de plutonium sont considérés comme combustibles pour les réacteurs nucléaires de quatrième génération. Dans ce cadre, des études expérimentales complémentaires sont nécessaire, notamment pour mieux comprendre les phénomènes mis en jeu lors de la fabrication ou sous irradiation. L'objet de ce travail est d'étudier le diagramme de phase U-Pu-O dans une large gamme de composition et de températures afin d'améliorer notre connaissance de ce système. La plupart des expériences ont été réalisées par diffraction des rayons X en fonction de la température. La contrôle in situ de la pression partielle en oxygène a permis de faire varier la stœchiométrie en oxygène dans le matériau. L'approche expérimentale a été couplée avec la modélisation thermodynamique par la méthode CALPHAD afin de mieux dimensionner les expériences et interpréter les résultats. Cette méthodologie a permis d'améliorer notre connaissance des équilibres de phase dans le système U-Pu-O. / Due to their physical and chemical properties, mixed uranium-plutonium oxides are considered for fuel in 4th generation nuclear reactors. In this frame, complementary experimental studies are necessary to develop a better understanding of the phenomena that take place during fabrication and operation in the reactor. The focus of this work was to study the U Pu–O phase diagram in a wide range of compositions and temperatures to ameliorate our knowledge of the phase equilibria in this system. Most of experiments were done using in situ X-ray diffraction at elevated temperatures. The control of the oxygen partial pressure during the treatments made it possible to change the oxygen stoichiometry of the sample, which gave us an opportunity to study rapidly different compositions and the processes involved. The experimental approach was coupled with thermodynamic modeling using the CALPHAD method, to precisely plan the experiments and interpret the obtained results. This approach enabled us to enhance the knowledge of phase equilibria in the U–Pu–O system.

Combustible MOX

Drx ht

In-Situ

Uranium

Plutonium

Ternaire Céramiques

Thermodynamique

Diagramme de phase

Equilibres de phases

(u

Pu)O2±x

MOX nuclear fuel

Ht xrd

In-Situ

Uranium

Plutonium

U–Pu–O ternary system

Ceramics

Thermodynamics

Phase diagram

Phase equilibria

(u

Pu)O2±x

620