Využití syntetických protilátek v imunohistochemii / Use of synthetic antibodies in immunohistochemistry

Tomečková, Kristýna

January 2021

This diploma thesis deals with the optimization of the preparation of molecularly imprinted (MIP) nanoparticles doped with metal ions, selective for the selected protein. In this work, the model protein – chymotrypsinogen A was chosen as a template. The free radical polymerization method was used for the preparation of molecularly imprinted nanoparticles. Dopamine was used as a functional monomer because it is able to bind metal ions to each other. It also undergoes very rapid oxidative polymerization under alkaline conditions without the need for the addition of polymer reaction initiators. MIP optimization was performed by capillary electrophoresis with UV-Vis detection. The MIP thus prepared can serve as recognition elements in immunohistochemical analyzes that use LA-ICP-MS as a detection method. Their applicability for immunohistochemistry was studied using the dot block method.

Τοwards a Synthetic Tryptophan Aminotransferase

Tsimpos, Kleomenis

January 2017

The synthesis and evaluation of a molecularly imprinted polymer has been undertaken using an oxazine-based tryptophanamide transition state analogue (TSA) as template. An efficient route to the synthesis of oxazine-based TSAs for the reaction of pyridoxamine and indole-3-pyruvic acid has been established, with yields of up to 80%. NMR titration studies were performed to examine the interactions between the functional monomer, methacrylic acid and the template. Complexation of the template by functional monomer in the presence of crosslinker showed an apparent KD of 0.63-0.79 ± 0.04 M (293 K, acetonitrile-d3) based upon the chemical shift of the template amide protons. TSA-imprinted and non-imprinted reference polymers were synthesized by free radical polymerization in acetonitrile. Polymer monoliths were ground and fractionated into a 25-63 μm size range. Polymer-ligand recognition studies were conducted using the polymers as HPLC stationary phases. An imprinting factor (IF) of 2.93 was observed for the TSA, indicating the selectivity of the imprinted sites for the template. Studies using the D- and L-enantiomers of the phenylalaninamide analogue of the template showed enantioselectivity in the case of the imprinted polymer, α = 1.10, though not in the case of the non-imprinted reference polymer (1.00). Using UV-spectroscopy based polymer-ligand binding studies, a maximum theoretical capacity (Bmax) of 0.059 ± 0.004 mmol·g-1 was observed for the imprinted polymer. Conclusively, an imprinted polymer with binding sites selective for the TSA was successfully prepared and shall subsequently be studied with respect to its capacity to catalyse the transamination reaction between pyridoxamine and indole-3-pyruvic acid to yield pyridoxal and tryptophan.

Chemical Sciences

Kemi

Occurrence and Transformation of Pharmaceutical and Antibacterial Compounds in the Environment

Verma, Kusum Santosh

10 December 2010

The presence of pharmaceuticals and personal care products (PPCPs) in the environment has become a matter of concern during the last decade. Increased production of PPCPs along with their increased use has led to release of these compounds in the environment via various routes. PPCPs includes large group of compounds including veterinary and human antibiotics, analgesics and anti-inflammatory drugs, psychiatric drugs, β-blockers, X-ray contrasts, and steroid hormones, etc. Many of the compounds used in PPCPs have been shown to possess adverse effects to living organisms and act as endocrine disrupting agents (ECDs). This dissertation includes the investigation of the occurrence of antibiotic compounds added to personal care product and the transformation of hormones used in pharmaceuticals such as contraceptives. The results obtained in this study can provide information on the fate and transformation of the studied compounds once released in the environment. An analytical method employing sonication extraction and HPLC-ESI-MS detection was developed. The developed method was used to detect antibiotic compounds triclosan (TCS) and triclocarban (TCC) in biosolids-applied soil and biosolids. Both TCS and TCC were detected at high concentrations in biosolids and at lower concentrations in biosolids-applied soil. TCS and TCC concentrations decreased in biosolids composts and in biosolids-applied soil collected at deeper depths. The developed method was able to provide efficient detection limits and reliable quantification of target compounds. A molecularly imprinted polymer (MIP) was synthesized to achieve efficient clean-up of TCS and TCC from biosolids-applied soil and biosolids samples using 4,4’- DBP-4-vp-EGDMA. The motivation behind this project was to be able to eliminate the use of expensive instruments such as LC-MS and employ easily available instruments such as LC-UV. The synthesized MIP was able to achieve efficient clean-up and allowed quantification and identification of TCS and TCC in a complex matrix. Transformation of hormones such as 17β-estradiol, estriol, ethynlestradiol, estrone and testosterone was studied by employing Fe (III)-saturated montmorillonite catalysts. The use of Fe (III) – saturated montmorillonite as a catalyst proved be to very efficient in transformation of the studied hormones. Complete removal of hormones was observed in aqueous environment. LC-UV was used for detection and quantification of hormones.

montmorillonite.

Fe (III) – saturated montmorillonite

oxidative transformation

molecularly imprinted polymers

triclocarban

estrogens

triclosan

Effect of polymerisation by microwave on the physical properties of molecularly imprinted polymers (MIPs) specific for caffeine

Brahmbhatt, H.A., Surtees, Alexander P.H., Tierney, C., Ige, O.A., Piletska, E.V., Swift, Thomas, Turner, N.W.

14 October 2020

Yes / Molecularly Imprinted Polymers (MIPs) are a class of polymeric materials that exhibit highly specific recognition properties towards a chosen target. These “smart materials” offer robustness to work in extreme environmental conditions and cost effectiveness; and have shown themselves capable of the affinities/specificities observed of their biomolecular counterparts. Despite this, in many MIP systems heterogeneity generated in the polymerisation process is known to affect the performance. Microwave reactors have been extensively studied in organic chemistry because they can afford fast and well-controlled reactions, and have been used for polymerisation reactions; however, their use for creating MIPs is limited. Here we report a case study of a model MIP system imprinted for caffeine, using microwave initiation. Experimental parameters such as polymerisation time, temperature and applied microwave power have been investigated and compared with polymers prepared by oven and UV irradiation. MIPs have been characterised by BET, SEM, DSC, TGA, NMR, and HPLC for their physical properties and analyte recognition performance. The results suggest that the performance of these polymers correlates to their physical characteristics. These characteristics were significantly influenced by changes in the experimental polymerisation parameters, and the complexity of the component mixture. A series of trends were observed as each parameter was altered, suggesting that the performance of a generated polymer could be possible to predict. As expected, component selection is shown to be a major factor in the success of an imprint using this method, but this also has a significant effect on the quality of resultant polymers suggesting that only certain types of MIPs can be made using microwave irradiation. This work also indicates that the controlled polymerisation conditions offered by microwave reactors could open a promising future in the development of MIPs with more predictable analyte recognition performance, assuming material selection lends itself to this type of initiation. / DMU School of Pharmacy undergraduate project scheme for financial support.

Molecularly Imprinted Polymers (MIPs)

“Smart materials”

Polymerisation process

Microwave reactors

Caffeine

Degradação de profenofós em solução aquosa e em ervilhas processadas por feixe de elétrons e a síntese de polímeros impressos para extração seletiva desse pesticida / Degradation of profenofos in aqueous solution and peas by electron beam processed and synthesis of imprinted polymers for selective extraction of this pesticide

Flavio Thihara Rodrigues

10 April 2015

Profenofós é um organofosforado empregado como inseticida e acaricida amplamente utilizado no Brasil para o controle de pragas de cebolas, milho, soja, café, tomate, algodão, feijão, batata e outros. A irradiação é um processo empregado em todo o mundo e recomendada por diversos órgãos de saúde para a conservação de alimentos. A radiação ionizante utiliza raios gama, raios X ou aceleradores de elétrons e tem sido aplicada para eliminar ou reduzir a ação de agentes patogênicos e contribuir para aumentar o tempo de estocagem de vários alimentos. Os objetivos desse trabalho foram: (a) avaliar a degradação de soluções aquosas de profenofós submetidas à radiação ionizante, identificar e quantificar a formação de novos produtos por GC-MS; (b) analisar o efeito de feixe de elétrons em ervilhas inoculadas com soluções aquosas de profenofós; (c) sintetizar Polímeros Molecularmente Impressos (MIP) e Sílica Impressa Molecularmente (MIS), posteriormente, caracterizar os adsorventes em fase sólida e verificar sua seletividade para profenofós. O tratamento com aceleradores de elétrons com dose 31,6 kGy promoveu a formação de um novo produto de degradação e redução de 93,40 % de profenofós em soluções aquosas. Em ervilhas inoculadas com 1 μg de profenofós submetidas à radiação ionizante de 30,4 kGy promoveu uma redução na concentração de profenofós em 57,46 %. Além disso, foram realizadas sínteses de MIP e MIS para a extração em fase sólida de profenofós. Os MIS sintetizados por sol-gel mostraram-se eficazes para o reconhecimento molecular e extração seletiva de profenofós. / Profenofos is an organophosphate widely used in Brazil as insecticide and acaricide in the control of pests in onions, corn, soybeans, coffee, tomato, cotton, beans, potatoes among others. Irradiation is a process used worldwide and recommended by many health agencies for food preservation. Food irradiation preserving process uses accelerated electrons, gamma rays or X-rays. Ionizing radiation treatment is applied to eliminate or to reduce the action of pathogens and to increase the shelf life of some foods. The objective of this study were (a) to evaluate the degradation of aqueous solutions of Profenofos by ionizing radiation, identify and quantify the formation of new products by GC-MS; (b) to analyze the effects of electron beam in peas inoculated with aqueous solutions of Profenofos; (c) to synthesize Molecularly Imprinted Polymer (MIP) and Molecularly Imprinted Silica (MIS), subsequently characterize the adsorbents in solid phase and check its selectivity for profenofos. The treatment with electron accelerators with 31.6 kGy dose promoted the formation of a new by-product and 93.40 % reduction of profenofos in aqueous solutions. In peas inoculated with 1 μg of profenofos by ionizing radiation of 30.4 kGy promoted a reduction of 57.46 % in the concentration of profenofos. Furthermore, the MIP and MIS were performed for solid phase extraction of profenofos. The MIS synthesized by sol-gel proved to be effective for the recognition molecular and selective extraction of profenofos.

ervilhas

extração em fase sólida

extração líquido-líquido

irradiação de alimentos

polímero de impressão molecular

profenofós

QuEChERS

sílica impressa molecularmente

food irradiation

liquid-liquid extraction

molecularly imprinted polymer

molecularly imprinted silica

peas

profenofos

Quechers

solid phase extraction

Degradação de profenofós em solução aquosa e em ervilhas processadas por feixe de elétrons e a síntese de polímeros impressos para extração seletiva desse pesticida / Degradation of profenofos in aqueous solution and peas by electron beam processed and synthesis of imprinted polymers for selective extraction of this pesticide

Rodrigues, Flavio Thihara

10 April 2015

Profenofós é um organofosforado empregado como inseticida e acaricida amplamente utilizado no Brasil para o controle de pragas de cebolas, milho, soja, café, tomate, algodão, feijão, batata e outros. A irradiação é um processo empregado em todo o mundo e recomendada por diversos órgãos de saúde para a conservação de alimentos. A radiação ionizante utiliza raios gama, raios X ou aceleradores de elétrons e tem sido aplicada para eliminar ou reduzir a ação de agentes patogênicos e contribuir para aumentar o tempo de estocagem de vários alimentos. Os objetivos desse trabalho foram: (a) avaliar a degradação de soluções aquosas de profenofós submetidas à radiação ionizante, identificar e quantificar a formação de novos produtos por GC-MS; (b) analisar o efeito de feixe de elétrons em ervilhas inoculadas com soluções aquosas de profenofós; (c) sintetizar Polímeros Molecularmente Impressos (MIP) e Sílica Impressa Molecularmente (MIS), posteriormente, caracterizar os adsorventes em fase sólida e verificar sua seletividade para profenofós. O tratamento com aceleradores de elétrons com dose 31,6 kGy promoveu a formação de um novo produto de degradação e redução de 93,40 % de profenofós em soluções aquosas. Em ervilhas inoculadas com 1 μg de profenofós submetidas à radiação ionizante de 30,4 kGy promoveu uma redução na concentração de profenofós em 57,46 %. Além disso, foram realizadas sínteses de MIP e MIS para a extração em fase sólida de profenofós. Os MIS sintetizados por sol-gel mostraram-se eficazes para o reconhecimento molecular e extração seletiva de profenofós. / Profenofos is an organophosphate widely used in Brazil as insecticide and acaricide in the control of pests in onions, corn, soybeans, coffee, tomato, cotton, beans, potatoes among others. Irradiation is a process used worldwide and recommended by many health agencies for food preservation. Food irradiation preserving process uses accelerated electrons, gamma rays or X-rays. Ionizing radiation treatment is applied to eliminate or to reduce the action of pathogens and to increase the shelf life of some foods. The objective of this study were (a) to evaluate the degradation of aqueous solutions of Profenofos by ionizing radiation, identify and quantify the formation of new products by GC-MS; (b) to analyze the effects of electron beam in peas inoculated with aqueous solutions of Profenofos; (c) to synthesize Molecularly Imprinted Polymer (MIP) and Molecularly Imprinted Silica (MIS), subsequently characterize the adsorbents in solid phase and check its selectivity for profenofos. The treatment with electron accelerators with 31.6 kGy dose promoted the formation of a new by-product and 93.40 % reduction of profenofos in aqueous solutions. In peas inoculated with 1 μg of profenofos by ionizing radiation of 30.4 kGy promoted a reduction of 57.46 % in the concentration of profenofos. Furthermore, the MIP and MIS were performed for solid phase extraction of profenofos. The MIS synthesized by sol-gel proved to be effective for the recognition molecular and selective extraction of profenofos.

ervilhas

extração em fase sólida

extração líquido-líquido

food irradiation

irradiação de alimentos

liquid-liquid extraction

molecularly imprinted polymer

molecularly imprinted silica

peas

polímero de impressão molecular

profenofos

profenofós

Quechers

QuEChERS

sílica impressa molecularmente

solid phase extraction

Avaliação de diferentes técnicas de preparo de amostras e perspectiva de síntese de um polímero seletivo para a concentração de N-nitrosodietanolamina (NDELA) em matrizes cosméticas / Evaluation of different sample preparation techniques and perspective synthesis of selective polymer for N-nitrosodiethanolamine (NDELA) in personal care products

Liporini, Amanda Quatrocchio

11 March 2016

A ocorrência de N-nitrosaminas em produtos cosméticos e de higiene pessoal está relacionada com os ingredientes utilizados na formulação de tais artefatos. A N-nitrosodietanolamina (NDELA) é formada na presença da dietanolamina associada a outros componentes, tais como íons nitrito empregados como conservantes em matrizes cosméticas. São cancerígenas e, portanto, as condições em que tais itens de consumo são fabricados é um fator que deve ser mensurado. Assim, é aconselhável a realização de estudos que mostrem a ocorrência de NDELA em cosméticos, seus principais métodos de determinação, bem como os aspectos legais que indicam os níveis de concentração deste contaminante presente em diversas formulações. Foi avaliado neste trabalho o potencial de algumas técnicas de preparo de amostras na concentração de NDELA, tais como microextração líquido-líquido dispersiva em fase reversa (DLLME-RP), extração líquido-líquido com salting out e clean up no modo on-line. Os resultados obtidos foram confrontados com os dados presentes na literatura. Adicionalmente, utilizando os conceitos de polimerização via sol-gel e via precipitação para a síntese de polímeros molecularmente impressos (MIP), propõem-se uma possível rota sintética para a confecção de materiais seletivos para a pré-concentração da nitrosamina. / The occurrence of N-nitrosamines in cosmetic and personal hygiene are related to the ingredients used in the formulation of such artefacts. N-nitrosodiethanolamine (NDELA) is formed in the presence of diethanolamine associated with other components such as nitrite ions employed as preservatives in cosmetic matrices. They are carcinogenic and, therefore, the conditions under which such consumer items are produced is a factor that must be measured. It is therefore advisable to carry out studies that show the occurrence of NDELA in cosmetics, their main methods of determination as well as the legal aspects that indicate the levels of concentration of this contaminant present in various formulations. It was evaluated in this study the potential for some sample preparation techniques in the concentration of NDELA such as liquid-liquid microextraction dispersive reverse phase (DLLME-RP) liquid-liquid extraction with salting out and clean up online. The results were compared with data in the literature. Additionally, using the concepts of polymerization via sol-gel and precipitation route for the synthesis of molecularly imprinted polymers (MIP) are proposed as a possible synthetic route for the preparation of materials for selective pre-concentration of nitrosamine.

cosmetic products

matrizes cosméticas

molecularly imprinted polymer (MIP)

N-nitrosodietanolamina (NDELA)

N-nitrosodiethanolamine (NDELA)

polímero molecularmente impresso (MIP)

Avaliação de diferentes técnicas de preparo de amostras e perspectiva de síntese de um polímero seletivo para a concentração de N-nitrosodietanolamina (NDELA) em matrizes cosméticas / Evaluation of different sample preparation techniques and perspective synthesis of selective polymer for N-nitrosodiethanolamine (NDELA) in personal care products

Amanda Quatrocchio Liporini

11 March 2016

A ocorrência de N-nitrosaminas em produtos cosméticos e de higiene pessoal está relacionada com os ingredientes utilizados na formulação de tais artefatos. A N-nitrosodietanolamina (NDELA) é formada na presença da dietanolamina associada a outros componentes, tais como íons nitrito empregados como conservantes em matrizes cosméticas. São cancerígenas e, portanto, as condições em que tais itens de consumo são fabricados é um fator que deve ser mensurado. Assim, é aconselhável a realização de estudos que mostrem a ocorrência de NDELA em cosméticos, seus principais métodos de determinação, bem como os aspectos legais que indicam os níveis de concentração deste contaminante presente em diversas formulações. Foi avaliado neste trabalho o potencial de algumas técnicas de preparo de amostras na concentração de NDELA, tais como microextração líquido-líquido dispersiva em fase reversa (DLLME-RP), extração líquido-líquido com salting out e clean up no modo on-line. Os resultados obtidos foram confrontados com os dados presentes na literatura. Adicionalmente, utilizando os conceitos de polimerização via sol-gel e via precipitação para a síntese de polímeros molecularmente impressos (MIP), propõem-se uma possível rota sintética para a confecção de materiais seletivos para a pré-concentração da nitrosamina. / The occurrence of N-nitrosamines in cosmetic and personal hygiene are related to the ingredients used in the formulation of such artefacts. N-nitrosodiethanolamine (NDELA) is formed in the presence of diethanolamine associated with other components such as nitrite ions employed as preservatives in cosmetic matrices. They are carcinogenic and, therefore, the conditions under which such consumer items are produced is a factor that must be measured. It is therefore advisable to carry out studies that show the occurrence of NDELA in cosmetics, their main methods of determination as well as the legal aspects that indicate the levels of concentration of this contaminant present in various formulations. It was evaluated in this study the potential for some sample preparation techniques in the concentration of NDELA such as liquid-liquid microextraction dispersive reverse phase (DLLME-RP) liquid-liquid extraction with salting out and clean up online. The results were compared with data in the literature. Additionally, using the concepts of polymerization via sol-gel and precipitation route for the synthesis of molecularly imprinted polymers (MIP) are proposed as a possible synthetic route for the preparation of materials for selective pre-concentration of nitrosamine.

matrizes cosméticas

N-nitrosodietanolamina (NDELA)

polímero molecularmente impresso (MIP)

cosmetic products

molecularly imprinted polymer (MIP)

N-nitrosodiethanolamine (NDELA)

Estudo teórico e experimental da síntese racional de polímeros de impressão molecular para extração seletiva de canabinoides em amostras de esgoto doméstico

Fernandes, Luciana Sarmento

January 2014

Orientadora: Profa. Dra. Káthia Maria Honório / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Ciência & Tecnologia - Química, 2014. / Polimeros de impressao molecular (MIPs) sao materiais sinteticos que possuem sitios de reconhecimento molecular especificos para determinado analito de interesse (molecula molde), e tem sido empregados para a pre-concentracao e extracao em amostras complexas, considerando a maior seletividade em relacao aos sorventes convencionais empregados na extracao em fase solida. A escolha dos reagentes utilizados na sintese de um MIP deve ser criteriosa, a fim de que sejam criados sitios de ligacoes especificos. Metodos computacionais de Quimica Teorica podem ser empregados para racionalizar o planejamento de MIPs, por intermedio do estudo de parametros fisico-quimicos das moleculas envolvidas e as interacoes que ocorrem no sistema de pre-polimerizacao. Com a utilizacao de metodos de quimica quantica, foi objetivo desse trabalho o estudo previo das interacoes entre as moleculas moldes e os possiveis reagentes empregados na sintese de MIPs, como forma de predicao das melhores interacoes que promovam um MIP de desempenho ideal. O estudo teorico foi direcionado para a molecula de ¿¢9-tetrahidrocanabinol (¿¢9-THC), substancia presente na planta Cannabis sativa e que e a substancia ilicita mais produzida e consumida mundialmente, e seu principal metabolito de excrecao urinario, o 11-nor-9-carboxi-¿¢9-THC (THC-COOH). A simulacao computacional foi realizada utilizando a Teoria do Funcional da Densidade (DFT), e a metodologia envolveu a comparacao das energias de interacao (¿¢E) dos adutos de pre-polimerizacao entre a molecula molde e os reagentes de sintese. Com os resultados das simulacoes, verificou-se que as melhores interacoes ocorrem quando o monomero utilizado tem caracteristica acida, como o acido acrilico e o acido metacrilico; e que o solvente mais adequado para a sintese sao os que apresentam baixa constante dieletrica, como o cloroformio e o tolueno, por interferirem menos na formacao do complexo de interacao entre a molecula molde e o monomero na etapa de pre-polimerizacao. Detalhes das interacoes existentes entre as moleculas do meio reacional tambem foram analisadas e forneceram informacoes sobre a possivel competicao entre as moleculas no acesso aos sitios de interacao das moleculas moldes, informacao crucial para obtencao de MIPs seletivos e de grande afinidade a molecula molde desejada. A partir das predicoes do estudo computacional, os MIPs de THC-COOH foram sintetizados com os monomeros indicados, juntamente com o polimero nao impresso (NIP), em alguns dos solventes simulados (agua, acetonitrila, metanol e agua), para avaliacao da interferencia do solvente na eficiencia do MIP obtido. Foi realizada a analise dos MIPs por espectroscopia vibracional na regiao do infravermelho, e avaliada as bandas de absorcao nas regioes dos grupos C=O e O-H, para analise da formacao de interacoes por ligacao de hidrogenio. Concluiu-se, portanto, que sem substituir os ensaios experimentais, a abordagem computacional pode ser utilizada como uma ferramenta preliminar e complementar a selecao experimental. / Molecularly imprinted polymers (MIPs) are synthetic materials with specific sites of molecular recognition for a given analyte of interest (template molecule), and have been used for the extraction and pre-concentration in complex samples, considering the higher selectivity presented in relation to the sorbent employed in conventional solid phase extraction. The choice of the reagents used in the synthesis of a MIP must be chosen carefully, so that site-specific linkages are created. Computational methods in Theoretical Chemistry can be used to rationalize the planning of MIPs through the study of physico-chemical parameters of the molecules involved and the interactions that occur in the pre-polymerization system. Using quantum chemical methods, the aim of this study was a preliminary investigation of the interactions between the template molecules and the possible reagents used in the synthesis of MIPs, as a way to predict the best interactions that promote MIPs with optimal performance. The theoretical study was directed to the molecule of Ä9-tetrahydrocannabinol (Ä9-THC), present in the plant Cannabis sativa, and that is the illicit substance most widely produced and consumed globally, as well as its major metabolite urinary excretion, 11 -nor-9-carboxy-Ä9-THC (THC-COOH). The computational simulation was performed using the Density Functional Theory (DFT), and the methodology involved the comparison of the interaction energies (ÄE) of adducts in pre-polymerization between the template molecule and reagents for synthesis. From the results of the simulations, it was found that the best interactions occur when the monomer has acid characteristic, such as acrylic acid and methacrylic acid; and that the most suitable solvent for synthesis are those with low dielectric constant such as toluene and chloroform, by interfering less in the formation of complex interaction between the template molecule and monomer in the pre-polymerization step. Details of the existing interactions between the molecules of the reactional medium were analyzed and provided information about the possible competition between the molecules in the access to the interaction sites of the template molecules, which is a crucial information for obtaining selective MIPs and with high affinity to the template molecule desired. From the computational predictions obtainde in this study, the MIPs of THC-COOH was synthesized with the indicated monomers, and also a non-imprinted polymer (NIP), considering some of simulated solvents (water, acetonitrile, methanol and water) for evaluation of the interference of solvent in the efficiency of the MIP obtained. Analyses on the formed MIPs were performed by spectroscopy in the infrared region, and the absorption bands in the regions of the groups C=O and OH were evaluated with the aim of analysing the formation of hydrogen bond interactions. Therefore, it is possible to conclude that, without replacing the experimental trials, the computational approach can be used as a preliminary and complementary tool to experimental selection.

POLÍMEROS DE IMPRESSÃO MOLECULAR

CANABINOIDES

DENSITY FUNCTIONAL THEORY

MOLECULARLY IMPRINTED POLYMERS

CANNABINOIDS

Katalytische molekular geprägte Polymere : Herstellung und Anwendung in einem Thermistor / Catalytically molecular imprinted polymers : synthesis and application in a thermistor

Lettau, Kristian

January 2007

Biomakromoleküle sind in der Natur für viele Abläufe in lebenden Organismen verantwortlich. Dies reicht vom Aufbau der extrazellulären Matrix und dem Cytoskelett über die Erkennung von Botenstoffen durch Rezeptoren bis hin zur Katalyse der verschiedensten Reaktionen in den Zellen selbst. Diese Aufgaben werden zum größten Teil von Proteinen übernommen, und besonders das spezifische Erkennen der Interaktionspartner ist für alle diese Moleküle äußerst wichtig, um eine fehlerfreie Funktion zu gewährleisten. Als Alternative zur evolutiven Erzeugung von optimalen Bindern und Katalysatoren auf der Basis von Aminosäuren und Nukleotiden wurden von Wulff, Shea und Mosbach synthetische molekular geprägte Polymere (molecularly imprinted polymers, MIPs) konzipiert. Das Prinzip dieser künstlichen Erkennungselemente beruht auf der Tatsache, dass sich funktionelle Monomere spezifisch um eine Schablone (Templat) anordnen. Werden diese Monomere dann vernetzend polymerisiert, entsteht ein Polymer mit molekularen Kavitäten, in denen die Funktionalitäten komplementär zum Templat fixiert sind. Dadurch ist die selektive Bindung des Templats in diese Kavitäten möglich. Aufgrund ihrer hohen chemischen und thermischen Stabilität und ihrer geringen Kosten haben “bio-inspirierte” molekular geprägte Polymere das Potential, biologische Erkennungselemente in der Affinitätschromatographie sowie in Biosensoren und Biochips zu ersetzen. Trotz einiger publizierter Sensorkonfigurationen steht der große Durchbruch noch aus. Ein Hindernis für Routineanwendungen ist die Signalgenerierung bei Bindung des Analyten an das Polymer. Eine Möglichkeit für die markerfreie Detektion ist die Benutzung von Kalorimetern, die Bindungs- oder Reaktionswärmen direkt messen können. In der Enzymtechnologie wird der Enzym-Thermistor für diesen Zweck eingesetzt, da enzymatische Reaktionen eine Enthalpie in einer Größenordnung von 5 – 100 kJ/mol besitzen. In dieser Arbeit wird die Herstellung von katalytisch geprägten Polymeren nach dem Verfahren des Oberflächenprägens erstmalig beschrieben. Die Methode zur Immobilisierung des Templats auf der Oberfläche von porösem Kieselgel sowie die Polymerzusammensetzung wurden optimiert. Weiter wird die Evaluation der katalytischen Eigenschaften über einen optischen Test, sowie das erste Mal die Kombination eines kalorimetrischen Transduktors – des Thermistors – mit der Analyterkennung durch ein katalytisch aktives MIP gezeigt. Bei diesen Messungen konnte zum ersten Mal gleichzeitig die Bindung/Desorption, sowie die katalytische Umwandlung des Substrats durch konzentrationsabhängige Wärmesignale nachgewiesen werden. / Bio macromolecules are responsible in nature for many reactions in living organisms. This reaches from the structure of the extra cellular matrix and the cytoskeleton over the recognition of ligands by receptors up to the catalysis of the most diverse reactions in the cells themselves. These tasks are taken over to the largest part by proteins, and particularly specific recognizing of the interaction partners is extremely important for all these molecules, in order to ensure an error free function. As alternative to the evolutionary production of optimal binders and catalysts on the basis of amino acids and nucleotides, synthetic molecularly imprinted polymer (MIPs) were invented by Wulff, Shea and Moosbach. The principle of these artificial recognition elements is based on the fact that functional monomers specifically arrange themselves around a template. If these monomers are copolymerized with crosslinking monomers, a polymer with molecular cavities is created, in which the functionalities are fixed complementary to the template. Thus the selective binding of the template is possible into these cavities. Due to their high chemical and thermal stability and their small costs "bioinspired" molecularly imprinted polymers have the potential to replace biological recognition elements in affinity chromatography as well as in biosensors and biochips. Despite some published sensor configurations the large break-through is still pending. An obstacle for routine application of is the signal generation on connection of the analyte to the polymer. A possibility for marker-free detection is the use of calorimeters, which can measure heats of reaction or adsorption directly. In enzyme technology the enzyme thermistor is used for this purpose, as enzymatic reactions possess enthalpies in an order of 5 - 100 kJ/mol. In this work the production of catalytically imprinted polymers is described for the first time by the procedure of surface imprinting. The method for immobilization of the template on the surface of porous silicagel as well as the polymer composition were optimized. The evaluation of the catalytic characteristics is shown by an optical test, as well as the first time the combination of a calorimetric transducer - the thermistor - with the analyte recognition by a catalytically active MIP. With these measurements for the first time the binding/desorption, as well as the catalytic transformation of the substrate could be proven at the same time by concentration-dependent heat signals.

Katalyse

molekular geprägte Polymere

Kalorimetrie

Enzymmodelle

Biosensoren

catalysis

molecularly imprinted polymers

calorimetry

enzyme models

biosensors

Life sciences