Phase Behavior of 12-Hydroxystearic Acid Gels

Lipowski, Brian M.

January 2014

No description available.

Polymer Chemistry

Polymers

LMOG

low molecular mass organogelators

Stanovení nízkomolekulárního heparinu pomocí afinitní kapilární elektroforézy / Determination of low-molecular-mass heparin using affinity capillary electrophoresis

Molnárová, Katarína

January 2019

Unfractionated heparin, which is a widely used anticoagulant, is frequently replaced with low-molecular-mass species. They are used due to their more predictable anticoagulant effect with less bleeding complications and also they have prolonged anticoagulant effect. For monitoring of low-molecular-mass heparin levels, anti-factor Xa assay is used, which has some significant drawbacks. This work is dedicated to determination of low-molecular-mass heparin, namely Fraxiparine, using affinity capillary electrophoresis. Heparin is a polysaccharide which does not exhibit a significant UV absorption; therefore, its indirect detection method was used. Fraxiparine forms a stable complex with protamine. Protamine is an arginine-rich, positively charged peptide which is used to suppress heparin anticoagulant effect. Because protamine has a complex, not precisely defined structure, it was replaced by well-defined tetraarginine. The method uses phosphoric acid of 9 mmol L-1 concentration with addition of 0.1% (w/v) hydroxyethylcellulose as the background electrolyte. The samples are injected hydrodynamically into the capillary by a pressure of 5 kPa. First, the zone of Fraxiparine was injected, followed by the zone of tetraarginine (5 s). After that, 30 kV voltage was applied for 30 s. During this time the...

Identificação, purificação e determinação da estrutura e função de componentes de baixas massas moleculares do do veneno da aranha Phoneutria nigriventer (Araneae; Ctenidae)

Gomes, Paulo César [UNESP]

06 August 2009

Made available in DSpace on 2014-06-11T19:30:56Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-08-06Bitstream added on 2014-06-13T19:40:32Z : No. of bitstreams: 1 gomes_pc_dr_rcla.pdf: 875503 bytes, checksum: 13ea84ba63273890b35fe9374e841f94 (MD5) / As aranhas do gênero Phoneutria (Aranae, Ctenidae) são comumente conhecidas como aranha armadeira ou aranha da banana, devido à posição de ataque/defesa que elas assumem contra uma presa/competidor e devido sua alta incidência nas plantações de bananas. Estas aranhas são solitárias, errantes (não constroem teias), muito agressivas e responsáveis por muitos casos graves de acidentes por envenenamento e de morte registrados. Estas aranhas são amplamente distribuídas nas regiões temperadas da América do Sul, com várias espécies já descritas. A espécie Phoneutria nigriventer é mais comum nas regiões centroeste e sudeste do Brasil. Um grande número de neurotoxinas tem sido purificado de venenos de aranhas do gênero Phoneutria. No entanto, as neurotoxinas não – protéicas de baixa massa molecular precisam ser isoladas e caracterizadas estrutural e funcionalmente. Essas toxinas são de potencial interesse na neuroquímica como ferramentas para investigações do sistema nervoso. O objetivo do presente estudo foi a caracterização estrutural e funcional da Nigriventrina, uma nova neurotoxina não-protéica de baixa massa molecular, isolada da fração hidrofílica do veneno da aranha Phoneutria nigriventer por (RPHPLC) sob gradiente de acetonitrila. A elucidação estrutural foi realizada com HRESIMS, ESI-MS, ESI-MS/MS e espectroscopia de Ressonância Magnética Nuclear 1D e 2D. A toxina apresentou massa molecular de 422Da (C12H14N4O13) e foi caracterizada como hidrazil-dioxopiperidina. A caracterização biológica foi realizada pela aplicação icv da Nigriventrina em cérebro de rato, seguido pelo acompanhamento da expressão da proteína Fos e dupla marcação imunoistoquímica. Todos os neurônios duplamente marcados foram associados ao receptor ionotrópico de glutamato NMDA (N-metil-D-aspartato), subtipo NMDA-NR1. A Nigriventrina apresentou afinidade... / The spiders of the genus Phoneutria (Aranae, Ctenidae) are commonly known as “armed spider” or “banana spider”, because of the attack–defense position that they assume against a prey/competitor and their high incidence in banana plantations. These spiders are solitary, wandering (no web), very aggressive, responsible for many cases of severe envenomation and recorded mortality. These spiders are widely distributed in the warm regions of South America, and several species have been described. The Phoneutria nigriventer are the most common in central and south-eastern regions of Brazil. A large number of neurotoxins have been purified from the venoms of Phoneutria spiders. However, the non-proteic low molecular mass neurotoxins must be isolated and structural and functionally characterized. These toxins have an interesting potential in neurochemistry as tools for investigations of nervous system. The objective of the present study was the structural and functional characterization of “Nigriventrine”, a novel non-proteic low molecular mass neurotoxin, isolated from the hydrophilic fraction of Phoneutria nigriventer spider venom by (RP-HPLC) under gradient of acetonitrile. The structural elucidation was carried out with HRESIMS, ESI-MS, ESI-MS/MS and Nuclear Magnetic Resonance 1D and 2D spectroscopy. The toxin presented molecular mass of 422Da (C12H14N4O13) and was characterized as hydroxyl-hydrazyl-dioxopiperidine. The biological characterization was performed by the i.c.v application of nigriventrine in rat brain, followed by the monitoring of the expression of Fos protein and doublelabeling immunohistochemistry. All doubly labeled neurons were associated to Nmethyl- D- aspartate/subtype of ionotropic glutamate receptor (NMDA-NR1). The nigriventrine presented affinity mainly to cortical regions, which are linked to perceptions and the voluntary muscles control of the animals... (Complete abstract click electronic access below)

Aracnideo

Aranha - Veneno

Toxinas

Neuroquimica

Toxinas de baixa massa molecular

Spider venoms

Low molecular mass toxins

Neurochemistry

Molecular Modulation Of Material Properties: Studies On Nanoparticles, Nanoassemblies, And Low Molecular-Mass Gelator

Srivastava, Aasheesh

01 1900

The present thesis titled “Molecular Modulation of Material Properties: Stud- ies on Nanoparticles, Nanoassemblies and Low Molecular Mass Gelator” deals with the preparation, characterization, and investigations into the properties of gold nanoparticles coated with novel thiols. The coverage of nanoparticle surfaces with these thiols renders them with special characteristics that will be of interest in biological and sensor applications. Also, a novel low molecular mass tetrameric sugar-based hydrogelator was synthesized and its gelation properties were studied in detail. Chapter 1 gives a general introduction and an overview about Nanomaterials, with emphasis towards nanoparticles of gold, which form the basis of this work. It delves with the history of research in noble metal nanoparticles, their interesting electronic and optical properties, the present methods of synthesis of high quality nanoparticles of noble metals, numerous potential applications of these novel materials, as well as the challenges in their real-life applications, and ends with the future outlook of this field of research. Chapter 2 describes the synthesis and characterization of three cationic lipid-like disulfides whose molecular structures are shown in Fig. 2.1. Gold nanoparticles capped with these molecules were then synthesized in small size dispersion by a simple one-phase protocol. These particles exhibited remarkably different solubility properties that were dictated by the molecular structure of the capping agent. The nanoparticles were characterized by a variety of techniques like UV-visible spec- troscopy, Transmission Electron Microscopy (TEM), proton Nuclear Magnetic Resonance (1H NMR), Fourier Transform Infra-red (FTIR) spectroscopy, and Zeta Potential measurements. These nanoparticles were then examined for their interactions (structural formula) Figure 1: Chemical Structures of the cationic lipid-like thiols used for nanoparticle preparation with dipalmitoyl phosphatidyl choline (DPPC) vesicles as model biological membranes. TEM, UV-vis, and Differential Scanning Calorimetry (DSC) were employed to probe the interactions. It was found that the capping agent of the nanoparticle had a strong bearing upon the interactions of the nanoparticles with DPPC vesicles. Chapter 3 describes the assembly of hydrophilic cationic nanoparticles upon elec- trostatic interaction with a variety of anionic surfactants. The chemical structures of some of the anions employed in the study, as well as a schematic of cationic nanopar- ticle are shown in Fig. 2. Upon ion pairing with long-chain anionic surfactants, the hydrophilic cationic nanoparticles were completely hydrophobized. They could then be phase-transferred to organic layer. TEM showed that nanoparticles assemble in to a variety of mesostructures upon ion-pairing with anions. The aggregate formation was found to depend critically upon length of the hydrophobic alkyl chain as well as the head-group of the anion. Isothermal Titration Calorimetry (ITC) was employed to probe the interactions of these nanoparticles with anions. It was found that the anions that resulted in nanoparticle precipitation displayed exothermic interactions with the nanoparticle. Chapter 4 deals with the synthesis of -thiolated metal chelator derivatives whose structures are shown in Fig. 3. The molecules are based on well-known chelators viz. iminodiacetic acid and bis-(2-pyridylmethyl)amine. While the first one is carboxylic acid-based chelator, the second one is pyridine-based. Nanoparticles coated with these chelators were synthesized in a size-controlled manner. These nanoparticles exhibited pH-controlled reversible assembly. However, while S-IDA based nanoparticles aggregated at low pH values, the S-BPA based nanoparticles aggregated in high pH regimes. Mixed monolayer protected gold nanoparticles were synthesized by employing S-BPA and C12H25SH as capping agents. It resulted in the formation of nanoparticles in low size-dispersion. These nanoparticles were characterized by 1H NMR spectroscopy to infer the ratio of the two capping agents on the nanoparticle surface. These nanoparticles demonstrated metal-ion induced aggregation. It was found that the nanoparticles could differentiate Cu2+ ions from other ions, and immediately formed aggregates in presence of Cu2+ ions. Chapter 5 describes the synthesis of novel mono-thiolated “Gemini” surfactants for nanoparticle synthesis. Gemini surfactants with different spacers were prepared. These surfactants had a 12-n-12 kind of molecular structure as shown in the Fig. 4. Upon preparation of nanoparticles with these thiols, the resulting material was soluble in water in the case of rigid thiols like D2S and DBPS Chapter 6 deals with the synthesis and hydrogelation properties of a low molecular mass hydrogelator based on an azobenzene based tetrameric sugar derivative (Fig. 5). The pKa of carboxylic acids in the molecule were determined using 13C NMR. The trans-to-cis isomerization of the compound was probed by time-dependent UV-vis studies. The sugar derivative exhibited pronounced hydrogelation capacity, gelling water at micromolar concentration. The gel formed was characterized extensively (structural formula) Figure 2: Schematic of cationic nanoparticles and molecular structures of the anions employed for nanoparticle assembly (structural formula) Figure 3: Chemical structures of metal-chelator containing thiols employed for the pH-controlled and metal-ion mediated nanoparticle assembly (structural formula) Figure 4: Schematic of cationic nanoparticles and molecular structures of the anions employed for nanoparticle assembly (structural formula) Figure 5: Chemical Structure of azobenzene-based tetrameric sugar derivative exhibit- ing pronounced hydrogelation using melting temperature analysis, UV-vis, FT-IR, circular dichroism spectroscopy and scanning electron microscopy. The resultant gel exhibited impressive tolerance to the pH variation of the aqueous phase and gelated water in the pH range of 4 to 10. While UV-vis and CD spectroscopy indicated that pronounced aggregation of the azobenzene chromophores in the gelator was responsible for gelation, FT-IR studies showed that hydrogen bonding is also a contributing factor in the gelation process. The melting of gel was found to depend upon the pH of the aqueous medium in which gel was formed. The gel showed considerable photostability to UV irradiation indicating tight intermolecular packing inside gelated state that render azobenzene groups in the resultant aggregate refractory to photoisomerization. The electron micrographs of the aqueous gels thus formed showed the existence of spongy globular aggregates in such gelated materials. Addition of salts to the aqueous medium led to a delay in the gelation process and also caused remarkable morphological changes in the microstructure of the gel. Appendix A describes the employment of ligand-free palladium nanoparticles towards efficient catalysis of Heck and Suzuki reactions in aqueous medium. Hexadecyl trimethylammonium bromide was employed as the surfactant to achieve solubilization of organic compounds in aqueous medium. UV-vis and TEM investigations into the formation of nanoparticles in the reaction media were undertaken. These studies indicate that the nanoparticles were formed by reduction of potassium tetrachloropalladinate by methyl acrylate used as one of the reactants. TEM investigation indicated the formation of nanoparticle assemblies upon solvent drying. Efficient and catalytic synthesis of a number of organic compounds could be achieved in high yield.

Gelators

Nanoparticles

Nano Materials

Gold Nanoparticles

Cationic Nanoparticles

Gelation

Hydrogelation

Nanoassemblies

Molecular-Mass Gelator

Nanotechnology

Identificação, purificação e determinação da estrutura e função de componentes de baixas massas moleculares do do veneno da aranha Phoneutria nigriventer (Araneae; Ctenidae) /

Gomes, Paulo César.

January 2009

Resumo: As aranhas do gênero Phoneutria (Aranae, Ctenidae) são comumente conhecidas como "aranha armadeira" ou "aranha da banana", devido à posição de ataque/defesa que elas assumem contra uma presa/competidor e devido sua alta incidência nas plantações de bananas. Estas aranhas são solitárias, errantes (não constroem teias), muito agressivas e responsáveis por muitos casos graves de acidentes por envenenamento e de morte registrados. Estas aranhas são amplamente distribuídas nas regiões temperadas da América do Sul, com várias espécies já descritas. A espécie Phoneutria nigriventer é mais comum nas regiões centroeste e sudeste do Brasil. Um grande número de neurotoxinas tem sido purificado de venenos de aranhas do gênero Phoneutria. No entanto, as neurotoxinas não - protéicas de baixa massa molecular precisam ser isoladas e caracterizadas estrutural e funcionalmente. Essas toxinas são de potencial interesse na neuroquímica como ferramentas para investigações do sistema nervoso. O objetivo do presente estudo foi a caracterização estrutural e funcional da "Nigriventrina", uma nova neurotoxina não-protéica de baixa massa molecular, isolada da fração hidrofílica do veneno da aranha Phoneutria nigriventer por (RPHPLC) sob gradiente de acetonitrila. A elucidação estrutural foi realizada com HRESIMS, ESI-MS, ESI-MS/MS e espectroscopia de Ressonância Magnética Nuclear 1D e 2D. A toxina apresentou massa molecular de 422Da (C12H14N4O13) e foi caracterizada como hidrazil-dioxopiperidina. A caracterização biológica foi realizada pela aplicação icv da Nigriventrina em cérebro de rato, seguido pelo acompanhamento da expressão da proteína Fos e dupla marcação imunoistoquímica. Todos os neurônios duplamente marcados foram associados ao receptor ionotrópico de glutamato NMDA (N-metil-D-aspartato), subtipo NMDA-NR1. A Nigriventrina apresentou afinidade... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The spiders of the genus Phoneutria (Aranae, Ctenidae) are commonly known as "armed spider" or "banana spider", because of the attack-defense position that they assume against a prey/competitor and their high incidence in banana plantations. These spiders are solitary, wandering (no web), very aggressive, responsible for many cases of severe envenomation and recorded mortality. These spiders are widely distributed in the warm regions of South America, and several species have been described. The Phoneutria nigriventer are the most common in central and south-eastern regions of Brazil. A large number of neurotoxins have been purified from the venoms of Phoneutria spiders. However, the non-proteic low molecular mass neurotoxins must be isolated and structural and functionally characterized. These toxins have an interesting potential in neurochemistry as tools for investigations of nervous system. The objective of the present study was the structural and functional characterization of "Nigriventrine", a novel non-proteic low molecular mass neurotoxin, isolated from the hydrophilic fraction of Phoneutria nigriventer spider venom by (RP-HPLC) under gradient of acetonitrile. The structural elucidation was carried out with HRESIMS, ESI-MS, ESI-MS/MS and Nuclear Magnetic Resonance 1D and 2D spectroscopy. The toxin presented molecular mass of 422Da (C12H14N4O13) and was characterized as hydroxyl-hydrazyl-dioxopiperidine. The biological characterization was performed by the i.c.v application of nigriventrine in rat brain, followed by the monitoring of the expression of Fos protein and doublelabeling immunohistochemistry. All doubly labeled neurons were associated to Nmethyl- D- aspartate/subtype of ionotropic glutamate receptor (NMDA-NR1). The nigriventrine presented affinity mainly to cortical regions, which are linked to perceptions and the voluntary muscles control of the animals... (Complete abstract click electronic access below) / Orientador: Mario Sergio Palma / Coorientador: Marta do Nascimento Cordeiro / Banca: Michael Richardson / Banca: Yara Curi / Banca: Claudio Francisco Tormena / Banca: Roberta Cornelio Ferreira Nocelli / Doutor

Aracnideo.

Aranha - Veneno.

Toxinas.

Neuroquimica.

Spider venoms. eng

Low molecular mass toxins. eng

Neurochemistry. eng

Estudo da hemoglobina extracelular gigante de Glossoscolex paulistus (HbGp) por ultracentrifugação analítica e fluorescência em função do pH / Studeis of the giant extracellular hemoglobin of Glossoscolex paulistus (HbGp) by analytical ultracentrifugation and fluorencence as a function of pH

Carvalho, Francisco Adriano de Oliveira

05 March 2010

A hemoglobina extracelular gigante do anelídeo Glossoscolex paulistus (HbGp) é homológa à hemoglobina da Lumbricus terrestris (HbLt). Baseado nos estudos de MALDI-TOF-MS foi determinada a massa molecular (MM) das subunidades da HbGp. Entretanto, ainda não era possível propor o valor exato da MM para a HbGp íntegra, pois a estequiometria deste oligômero ainda não era totalmente clara. Este trabalho objetiva avaliar a massa molecular do oligômero em dois estados de oxidação: oxi- e cianometa-HbGp, bem como avaliar a estabilidade desta proteína, ou seja, a dissociação e desnaturação em função do pH em meio ácido. O estudo por ultracentrifugação analítica permitiu uma avaliação independente da massa molecular da HbGp. Valores de MM de 3600 ± 100 e 3700 ± 100 kDa foram obtidos para a oxi- e cianometa-HbGp, respectivamente. Estes valores está de acordo com a massa esperada, assumindo a estequiometria proposta por Vinogradov para a HbLt. Os dados de ultracentrifugação para as amostras do monômero d puro mostraram um coeficiente de sedimentação de 1,95 ± 0,04 S para ambos os valores de pH 7,0 e 10,0. Além disso, as distribuições c (s) do monômero d puro indicaram que uma pequena contribuição (5%) de dímero de monômeros, d2, com valores de s020,w de 3,2 S estava presente em solução. Para a oxi-HbGp íntegra no pH 10,0 nenhuma contribuição em 58 - 59 S foi observada, sugerindo completa dissociação oligomérica. As distribuições c (s) mostraram dois picos adicionais em relação ao monômero puro: um pico em 4,2 - 4,4 S, que está associado ao trímero, abc; e um segundo pico em 5,8 - 6,0 S, que poderia ser associado ao tetrâmero, abcd. A adição de β-mercaptoetanol leva ao desaparecimento do pico em 4,2 S, consistente com a redução das pontes dissulfeto do trímero abc e produção dos monômeros a, b e c. Cerca de 19 % da forma cianometa-HbGp íntegra coexiste em equilíbrio com as subunidades dissociadas. Finalmente, estudos em meio ácido mostravam que na faixa de pH 5,0 - 7,0 as três formas de oxidação de HbGp apresentaram alta estabilidade oligomérica. Abaixo de pH 5,0 os dados de fluorescência mostrava que a estabilidade diminui na sequência cianometa > oxi > meta. Assim a estabilidade das formas oxi-, meta- e cianometa-HbGp foi avaliada, ficando evidenciada a maior estabilidade da forma cianometa-HbGp. / The giant extracellular hemoglobin of Glossoscolex paulistus (HbGp) is homologous to Lumbricus terrestris (HbLt). Based on MALDI-TOF-MS the molecular masses (MM) of HbGp subunits were determined. However, the exact value of the MM for the HbGp oligomer is not known. This study has as a main goal to evaluate the molecular weight of the oligomer in two oxidation states: oxy- and cyanomet-HbGp. Also the stability of the protein dissociation and denaturation as a function of pH was monitored. The present analytical ultracentrifugation study allowed us to assess the molecular mass of the whole oligomer giving valores of MM of 3600 ± 100 and 3700 ± 100 kDa for the oxy- and cyanomet-HbGp, respectively. These values are in agreement with the expected mass based on Vinogradov model for HbLt. Data were obtained of so20, w for the pure monomer d as 1.95 ± 0.04 S for both pH values 7.0 and 10.0. C(s) distributions for pure monomer indicated that a small contribution of dimer of monomers (5%), d2, was also present with so20, w of 3.2 S in solution. For the whole oxy- HbGp at pH 10.0 no contribution at 58 - 59 S was observed, suggesting complete oligomeric dissociation. C(s) distribution showed two additional peaks as compared to pure monomer: a peak at 4.2 - 4.5 S, probably due to the trimer, abc; a second peak at 5.8 - 6.0 S, that could be associated to the tetramer, abcd. Addition of beta-mercaptoethanol leads to the disappearance of the peak at 4.2 S, consistent with the reduction of the trimer abc disulfide bridges and production of monomers a, b and c. It may be noted that about 19% of cyanomet-HbGp, undissociated, coexist in equilibrium with the isolated subunits. Finally, studies in acidic pH values show that in the pH range 5.0-7.0 the oligomeric stability for the three oxidation forms of HbGp is quite high. Below pH 5.0, fluorescence emission data suggest that the stability is reduced in the following order: cyanomet > oxy > met-HbGp. Thus the stability of the oxy-, meta- and cyanomet-HbGp forms was evaluated evidenced making it clear the higher stability of the cyanomet-HbGp.

Glossoscolex paulistus

Glossoscolex paulistus

Analytical ultracentrifugation

Massa molecular

Molecular mass

Sedimentation coefficient and subunits

Ultracentrifugação analítica

Impacto da coagulação química na remoção de compostos orgânicos em efluente tratado por processo de lodos ativados. / Impact of coagulation flocculation process on the removal of organic compounds from secondary effluent from activates sludge treatment.

Natália Rodrigues Guimarães

08 November 2016

Os compostos (coloidais, suspensos e solúveis) presentes na água residual possuem diferentes características físico-químicas e diferentes massas moleculares. Pesquisadores têm se dedicado ao entendimento mais específico da parte solúvel do efluente. O fracionamento das substâncias orgânicas em diferentes classes e diferentes tamanhos é um dos métodos utilizados para a caracterização dos compostos orgânicos da água residual. Acredita-se que este método possa detectar as alterações nos valores residuais dos compostos orgânicos de forma mais precisa que os métodos tradicionais, i.e. DBO e DQO. Sendo assim, e sabendo do crescente uso dos projetos de pós-tratamento dos efluentes de ETE e reúso destes, fica a clara a avaliação da eficiência dos processos de pós-tratamento e a importância da quantificação e caracterização da matéria orgânica residual no efluente pós-tratado. Os objetivos deste projeto de pesquisa foram avaliar a remoção da carga orgânica residual no efluente do tratamento biológico do processo de lodo ativado da ETE Jesus Netto, utilizando diferentes parâmetros de coagulação/floculação utilizando cloreto férrico, sulfato de alumínio e cloreto de polialumínio como coagulantes, e análise de carbono orgânico dissolvido juntamente com a técnica de distribuição da massa molecular para avaliar essa remoção. As análises mostraram uma redução dos compostos orgânicos presentes no efluente secundário, em termos de carbono orgânico dissolvido, da ordem de 45% para o cloreto férrico e 38% para os sais de alumínio. A distribuição da massa molecular também sofreu alterações, notando-se o aumento dos compostos de menor massa molecular e a redução dos compostos de maior massa molecular. Os resultados corroboram com outros estudos realizados com efluentes secundários e águas de abastecimento sobre o impacto dos processos físico-químicos na distribuição da massa molecular. / The compounds (colloidal, suspended and soluble) present in the waste water have different physicochemical characteristics and different molecular masses. Researchers have dedicated themselves to the more specific understanding of the soluble part of the effluent. The fractionation of the organic substances in different classes and different sizes is a method widely used for the characterization of the organic compounds of the residual water. It´s believed that this method can detect changes of organic compounds residual values more accurately than traditional methods, i.e. biological oxygen demand and chemical oxygen demand. Therefore, knowing the increasing use of WWTP effluent after post-treatment processes and their reuse, it is clear that the evaluation of the post-treatment efficiency and the importance of the quantification and characterization of the residual organic matter in the post-treated effluent. The objectives of this research project were to evaluate the removal of the residual organic matter in the effluent from the biological treatment of the activated sludge process of the Jesus Netto WWTP using different coagulation/flocculation parameters with ferric chloride, aluminium sulfate and polyaluminum chloride (PAC) as coagulants, and dissolved organic carbon and molecular mass distribution analyses to evaluate the organic matter removal. The analyzes showed a reduction of the organic matter present in the secondary effluent, in terms of dissolved organic carbon, up to 45% for ferric chloride and 38% for aluminum salts. The distribution of the molecular mass also changed, with the increase of the compounds of lower molecular mass and the reduction of the compounds of higher molecular mass. The results corroborate with other studies carried out with secondary effluents and water supply on the impact of physicochemical processes on the molecular weight distribution.

Coagulação

COD

Efluentes (Tratamento)

Floculação

Peso molecular (Distribuição)

Reuso da água

Coagulation-flocculation

DOC

Molecular mass

Reuse

Secondary effluent

Estudo da hemoglobina extracelular gigante de Glossoscolex paulistus (HbGp) por ultracentrifugação analítica e fluorescência em função do pH / Studeis of the giant extracellular hemoglobin of Glossoscolex paulistus (HbGp) by analytical ultracentrifugation and fluorencence as a function of pH

Francisco Adriano de Oliveira Carvalho

05 March 2010

A hemoglobina extracelular gigante do anelídeo Glossoscolex paulistus (HbGp) é homológa à hemoglobina da Lumbricus terrestris (HbLt). Baseado nos estudos de MALDI-TOF-MS foi determinada a massa molecular (MM) das subunidades da HbGp. Entretanto, ainda não era possível propor o valor exato da MM para a HbGp íntegra, pois a estequiometria deste oligômero ainda não era totalmente clara. Este trabalho objetiva avaliar a massa molecular do oligômero em dois estados de oxidação: oxi- e cianometa-HbGp, bem como avaliar a estabilidade desta proteína, ou seja, a dissociação e desnaturação em função do pH em meio ácido. O estudo por ultracentrifugação analítica permitiu uma avaliação independente da massa molecular da HbGp. Valores de MM de 3600 ± 100 e 3700 ± 100 kDa foram obtidos para a oxi- e cianometa-HbGp, respectivamente. Estes valores está de acordo com a massa esperada, assumindo a estequiometria proposta por Vinogradov para a HbLt. Os dados de ultracentrifugação para as amostras do monômero d puro mostraram um coeficiente de sedimentação de 1,95 ± 0,04 S para ambos os valores de pH 7,0 e 10,0. Além disso, as distribuições c (s) do monômero d puro indicaram que uma pequena contribuição (5%) de dímero de monômeros, d2, com valores de s020,w de 3,2 S estava presente em solução. Para a oxi-HbGp íntegra no pH 10,0 nenhuma contribuição em 58 - 59 S foi observada, sugerindo completa dissociação oligomérica. As distribuições c (s) mostraram dois picos adicionais em relação ao monômero puro: um pico em 4,2 - 4,4 S, que está associado ao trímero, abc; e um segundo pico em 5,8 - 6,0 S, que poderia ser associado ao tetrâmero, abcd. A adição de β-mercaptoetanol leva ao desaparecimento do pico em 4,2 S, consistente com a redução das pontes dissulfeto do trímero abc e produção dos monômeros a, b e c. Cerca de 19 % da forma cianometa-HbGp íntegra coexiste em equilíbrio com as subunidades dissociadas. Finalmente, estudos em meio ácido mostravam que na faixa de pH 5,0 - 7,0 as três formas de oxidação de HbGp apresentaram alta estabilidade oligomérica. Abaixo de pH 5,0 os dados de fluorescência mostrava que a estabilidade diminui na sequência cianometa > oxi > meta. Assim a estabilidade das formas oxi-, meta- e cianometa-HbGp foi avaliada, ficando evidenciada a maior estabilidade da forma cianometa-HbGp. / The giant extracellular hemoglobin of Glossoscolex paulistus (HbGp) is homologous to Lumbricus terrestris (HbLt). Based on MALDI-TOF-MS the molecular masses (MM) of HbGp subunits were determined. However, the exact value of the MM for the HbGp oligomer is not known. This study has as a main goal to evaluate the molecular weight of the oligomer in two oxidation states: oxy- and cyanomet-HbGp. Also the stability of the protein dissociation and denaturation as a function of pH was monitored. The present analytical ultracentrifugation study allowed us to assess the molecular mass of the whole oligomer giving valores of MM of 3600 ± 100 and 3700 ± 100 kDa for the oxy- and cyanomet-HbGp, respectively. These values are in agreement with the expected mass based on Vinogradov model for HbLt. Data were obtained of so20, w for the pure monomer d as 1.95 ± 0.04 S for both pH values 7.0 and 10.0. C(s) distributions for pure monomer indicated that a small contribution of dimer of monomers (5%), d2, was also present with so20, w of 3.2 S in solution. For the whole oxy- HbGp at pH 10.0 no contribution at 58 - 59 S was observed, suggesting complete oligomeric dissociation. C(s) distribution showed two additional peaks as compared to pure monomer: a peak at 4.2 - 4.5 S, probably due to the trimer, abc; a second peak at 5.8 - 6.0 S, that could be associated to the tetramer, abcd. Addition of beta-mercaptoethanol leads to the disappearance of the peak at 4.2 S, consistent with the reduction of the trimer abc disulfide bridges and production of monomers a, b and c. It may be noted that about 19% of cyanomet-HbGp, undissociated, coexist in equilibrium with the isolated subunits. Finally, studies in acidic pH values show that in the pH range 5.0-7.0 the oligomeric stability for the three oxidation forms of HbGp is quite high. Below pH 5.0, fluorescence emission data suggest that the stability is reduced in the following order: cyanomet > oxy > met-HbGp. Thus the stability of the oxy-, meta- and cyanomet-HbGp forms was evaluated evidenced making it clear the higher stability of the cyanomet-HbGp.

Glossoscolex paulistus

Massa molecular

Ultracentrifugação analítica

Glossoscolex paulistus

Analytical ultracentrifugation

Molecular mass

Sedimentation coefficient and subunits

Impacto da coagulação química na remoção de compostos orgânicos em efluente tratado por processo de lodos ativados. / Impact of coagulation flocculation process on the removal of organic compounds from secondary effluent from activates sludge treatment.

Guimarães, Natália Rodrigues

08 November 2016

Os compostos (coloidais, suspensos e solúveis) presentes na água residual possuem diferentes características físico-químicas e diferentes massas moleculares. Pesquisadores têm se dedicado ao entendimento mais específico da parte solúvel do efluente. O fracionamento das substâncias orgânicas em diferentes classes e diferentes tamanhos é um dos métodos utilizados para a caracterização dos compostos orgânicos da água residual. Acredita-se que este método possa detectar as alterações nos valores residuais dos compostos orgânicos de forma mais precisa que os métodos tradicionais, i.e. DBO e DQO. Sendo assim, e sabendo do crescente uso dos projetos de pós-tratamento dos efluentes de ETE e reúso destes, fica a clara a avaliação da eficiência dos processos de pós-tratamento e a importância da quantificação e caracterização da matéria orgânica residual no efluente pós-tratado. Os objetivos deste projeto de pesquisa foram avaliar a remoção da carga orgânica residual no efluente do tratamento biológico do processo de lodo ativado da ETE Jesus Netto, utilizando diferentes parâmetros de coagulação/floculação utilizando cloreto férrico, sulfato de alumínio e cloreto de polialumínio como coagulantes, e análise de carbono orgânico dissolvido juntamente com a técnica de distribuição da massa molecular para avaliar essa remoção. As análises mostraram uma redução dos compostos orgânicos presentes no efluente secundário, em termos de carbono orgânico dissolvido, da ordem de 45% para o cloreto férrico e 38% para os sais de alumínio. A distribuição da massa molecular também sofreu alterações, notando-se o aumento dos compostos de menor massa molecular e a redução dos compostos de maior massa molecular. Os resultados corroboram com outros estudos realizados com efluentes secundários e águas de abastecimento sobre o impacto dos processos físico-químicos na distribuição da massa molecular. / The compounds (colloidal, suspended and soluble) present in the waste water have different physicochemical characteristics and different molecular masses. Researchers have dedicated themselves to the more specific understanding of the soluble part of the effluent. The fractionation of the organic substances in different classes and different sizes is a method widely used for the characterization of the organic compounds of the residual water. It´s believed that this method can detect changes of organic compounds residual values more accurately than traditional methods, i.e. biological oxygen demand and chemical oxygen demand. Therefore, knowing the increasing use of WWTP effluent after post-treatment processes and their reuse, it is clear that the evaluation of the post-treatment efficiency and the importance of the quantification and characterization of the residual organic matter in the post-treated effluent. The objectives of this research project were to evaluate the removal of the residual organic matter in the effluent from the biological treatment of the activated sludge process of the Jesus Netto WWTP using different coagulation/flocculation parameters with ferric chloride, aluminium sulfate and polyaluminum chloride (PAC) as coagulants, and dissolved organic carbon and molecular mass distribution analyses to evaluate the organic matter removal. The analyzes showed a reduction of the organic matter present in the secondary effluent, in terms of dissolved organic carbon, up to 45% for ferric chloride and 38% for aluminum salts. The distribution of the molecular mass also changed, with the increase of the compounds of lower molecular mass and the reduction of the compounds of higher molecular mass. The results corroborate with other studies carried out with secondary effluents and water supply on the impact of physicochemical processes on the molecular weight distribution.

Coagulação

Coagulation-flocculation

COD

DOC

Efluentes (Tratamento)

Floculação

Molecular mass

Peso molecular (Distribuição)

Reuse

Reuso da água

Secondary effluent

CHARACTERIZATION OF BIOLOGICALLY IMPORTANT VOLATILE AND NON-VOLATILE MOLECULES VIA HETEROATOM DETERMINATION USING CHROMATOGRAPHY AND MASS SPECTROMETRY

SHAH, MONIKA

17 July 2006

No description available.

Chemistry, Analytical

Elemental speciation

ICP-MS

Hyphenated techniques

Molecular mass spectrometry

Selenium

Green Onions

Iodine

Seaweeds

Phosphoric acid triesters

SPME