Síntese de ésteres etílicos obtidos a partir dos óleos de mamona e soja utilizando a lipase imobilizada de Thermomyces lanuginosus (LIPOZYME TL IM) / Synthesis of ethilic esters from mamona and soy oil by supported lipase from /*Thermomyces lanuginosus*

Marcia Alexandra Rampin

04 January 2008

Com o objetivo de se estabelecer uma metodologia eficiente para obtenção de ésteres etílicos por transesterificação enzimática de óleos de soja e de mamona, utilizando um catalisador mais barato do que o anteriormente estudado em nosso grupo de pesquisa, Cândida Antarctica A (Novozym 435), é que a lipase 1,3- específica de Thermomices lanuginosus (Lipozyme TL IM) foi escolhida. Foram realizadas várias reações para estudo das melhores condições reacionais tanto para o óleo de soja, quanto para o óleo de mamona. Nestes estudos foi observada a influencia dos efeitos do teor de etanol no meio reacional, da trituração da enzima imobilizada, da pré-incubação da enzima imobilizada, da concentração da enzima no meio reacional e da temperatura do meio reacional na alcóolise enzimática utilizando a lípase Lipozyme TL IM como catalisador. A conversão dos materiais de partida a ésteres etílicos foi acompanhada por cromatografia em camada delgada (CCD) aliada a quantificação através dos padrões de ricinoleato de etila e linoleato de etila através de cromatografia líquida de alta eficiência (CLAE). Tendo sido estabelecidas as melhores condições para a conversão dos óleos de soja e mamona utilizando o catalisador enzimático em questão, foram realizadas novas reações de modo a otimizar as condições das reações através da utilização dos parâmetros estabelecidos, porém de forma conjunta. A observação destes últimos resultados apontou a presença de intermediários residuais não convertidos e, portanto para a necessidade de uma segunda etapa de reação posterior à reação com a Lipozyme TL IM. Nesta segunda etapa, optou-se por utilizar a lípase do tipo inespecífica, a Novozym 435, sendo que a mesma apresentou bons resultados na conversão em último estágio reacional dos monoglicerídeos e diglicerídeos presentes no meio de forma residual. Posteriormente, foram realizadas etapas de purificação dos produtos obtidos, bem como estudos de características físico-químicas tais como, viscosidade, densidade, índice de iodo e ponto de fulgor para os ésteres obtidos a partir dos óleos de soja e mamona em sua forma pura e em mistura entre os mesmos, para que fosse possível verificar sua adequação quanto às normas internacionais de qualidade para biocombustíveis, EN 14214 e ASTM D 6571. / The main objective of this work was to establish an efficient methodology for the production of ethyl esters by the enzymatic transesterification of soybean and castorbean oils, using a cheaper catalyst than those used previously in our research group, Candida Antartica A. In this research we used a 1,3-non specific lipase, isolated from Thermomices lanuginous commercially named Lipozyme TL IM. Several reactions were performed to determine the best reaction conditions for both, the castorbean and the soy-beans. In this study we analyzed the influence of different parameters for the transesterification to occur in an efficient way, like the ethanol ratio in the reaction media, the granulometry of the enzyme support, the temperature of the reaction medium, , the concentration of catalyst used (enzyme), specifically Lipozyme TL IM. The starting material transformation to ethyl esters was qualitatively monitored using TLC (Thin Layer Chromatography), while the quantitative analysis was done using ethyl ricinoleate and ethyl linoleate as standard in High Performance Liquid Chromatography (HPLC). After the best reaction conditions were determined for both castor and soybean oil, using the enzymatic catalyst, it were performed new experiments in order to optimize the reaction conditions using the established individual parameters, however combining all it. Even working with the combination of the best parameters, it was still observed the presence of residual intermediates such as mono and di-glicerides, that are not converted in just one step. Consequently, we decided to perform a second reaction step after the transformation with Lipozyme TL IM. In this second reaction, a non-specific enzyme, the Novozymes 435, was used showing good results in the further transformation of mono- and di-glicerides that were present in residual amounts after the first reaction step. Furtherly, the obtained products from castor and soybean were purified and their physico-chemical quality parameters like viscosity, density, iodine number and flash point were determined for their pure form and for the blend of both products (castor and soy biodiesel), in order to correct some of these quality parameters that are out of the international quality standard, EN 14214 and ASTM D 6751.

Biodiesel and/*Thermomyces lanuginosus*

Ethilic esters

Beta-xilosidases induzidas por resíduos agroindustriais: análise da regulaçãogênica em caulobacter crescentus e produçãoenzimática por thermomyces lanuginosus / PAPER 1 Depletion of the xynB2 gene upregulates β-Xylosidase expression in C. crescentus

Corrêa, Juliana Moço

27 November 2014

Made available in DSpace on 2017-05-12T14:47:05Z (GMT). No. of bitstreams: 1 JULIANA_ MOCO CORREA (2).pdf: 1734110 bytes, checksum: 24beceb790c634d766ff59c9de448991 (MD5) Previous issue date: 2014-11-27 / PAPER 1 Depletion of the xynB2 gene upregulates β-Xylosidase expression in C. crescentus. Caulobacter crescentus is able to express several enzymes involved in the utilization of lignocellulosic biomasses. Five genes, xynB1-5, that encode β-xylosidases are present in the genome of this bacterium. In this study, the xynB2 gene, which encodes - xylosidase II (CCNA_02442), was cloned under the control of the PxylX promoter to generate the O-xynB2 strain, which overexpresses the enzyme in the presence of xylose. In addition, a null mutant strain, -xynB2, was created by two homologous recombination events where the chromosomal xynB2 gene was replaced by a copy that was disrupted by the spectinomycin-resistant cassette. It was demonstrated that C. crescentus cells lacking -xylosidase II up-regulates the xynB genes inducing β- xylosidase activity. Transcriptional analysis revealed that xynB1 (RT-PCR analysis) and xynB2 (lacZ transcription fusion) gene expression was induced in the -xynB2 cells, and high -xylosidase activity was observed in the presence of different agroindustrial residues in the null mutant strain, a characteristic that can be explored and applied in biotechnological processes. In contrast, overexpression of the xynB2 gene caused down-regulation of the expression and activity of the -xylosidase. For example, the β-xylosidase activity that was obtained in the presence of sugar cane bagasse was 7-fold and 16-fold higher than the activity measured in the C. crescentus parental and O-xynB2 cells, respectively. Our results suggest that -xylosidase II may have a role in controlling the expression of the xynB1 and xynB2 genes in C.crescentus. PAPER 2 - OPTIMIZATION OF THE PRODUCTION β-XYLOSIDASE: A NEW Thermomyces lanuginosus ISOLATED FROM ATLANTIC FOREST BIOME. The successful production of enzymes for the deconstruction of plant biomass depends not only on the isolation and identification of new microorganism producers of hemicellulases, but also on the implementation and improvement of experimental strategies that lead to maximal induction of enzymatic activities. In this work, a new strain of Thermomyces lanuginosus (T. lanuginosus) was isolated from the Atlantic Forest biome in Brazil, and its β-xylosidase activity in response to agro-industrial residues was tested. Using the (CCRD) statistical approach as a strategy for optimization, the induction of β-xylosidase activity was evaluated in residual corn straw, which was used as a carbon source, and improved so that the optimum condition achieved high β-xylosidase activity (1,003 U ml -1; specific activity = 1.683 U mg-1) with 214 U ml -1. The optimal conditions for the crude enzyme extract were pH 5.5 and 60° C showing better thermostability at 55° C. The saccharification ability of β-xylosidase in the presence of hemicellulose obtained from corn straw and xylan from beechwood substrates showed a xylo-oligosaccharide to xylose conversion yield of 80 and 50%, respectively, at 50° C. These data suggest that β-xylosidase from T. lanuginosus isolated from the Atlantic Forest can be used for the saccharification of hemicellulose derived from corn straw, an abundant residue in the American continents, thus providing an interesting alternative for future tests for energy production that relies on the conversion of plant biomass. / RESUMO GERAL As Beta-D-Xilosidases (1,4-β-D-xilano xilohidrolase; EC 3.2.1.37) são glicosídeo hidrolases que tem papel crucial em catalizar a liberação de unidades de xilose a partir de xilo-oligossacarídeos derivados da degradação do xilano. A completa degradação do xilano é um passo chave do ciclo do carbono na natureza e é um processo também realizado por microrganismos. A bioconversão de materiais lignocelulósicos é vantajosa não somente do ponto de vista ambiental mais também econômico o que é recebido nos setores produtivos com um considerável interesse, pois esses materiais representam vasta fonte de carbono, que podem ser empregados no desenvolvimento de bioprocessos que resultam em produtos de alto valor agregado; entre os quais estão os açúcares fermentáveis, combustíveis, fármacos, enzimas e substâncias de interesse industrial, além de fazer uma gestão integrada do efluente que por não haver um desenvolvimento biotecnológico adequado é descartado e acumulado na natureza. Em face disso, o presente trabalho teve por objetivos estudar a regulação gênica do gene xynB2 da bactéria Caulobacter crescentus que codifica para a Beta-xilosidase II através de abordagens moleculares e otimizar a produção enzimática de Betaxilosidases de Thermomyces lanuginosus na presença de diferentes resíduos de biomassa vegetal por delineamento experimental. No primeiro artigo exploramos a bactéria aquática Caulobacter crescentus por possuir várias enzimas envolvidas na utilização de biomassas lignocelulósicas; contendo em seu genoma cinco genes que codificam β-xilosidases. A partir do gene xynB2, que codifica para enzima -xylosidase II (CCNA_02442), desenvolvemos duas linhagens mutantes denominadas O-xynB2, que super-expressa a enzima na presença de xilose e -xynB2 que tem o gene xynB2 interrompido, o que possibilitou avaliar que a ausência da enzima -xylosidase II em células de C. crescentus regula positivamente os genes xynB, induzindo a atividade global de β-xilosidases, revelando um papel regulatório para a mesma. No segundo trabalho um fungo da linhagem Thermomyces lanuginosus isolado de bioma de Mata Atlântica foi identificado e analisado quanto à capacidade de produzir Beta-xilosidases na presença de diferentes resíduos vegetais; em decorrência disso foi otimizado a produção enzimática com delineamento experimental DCCR, o que permitiu alcançar altos níveis de atividade enzimática beta-xilosidásica na presença de palha de milho.

regulação gênica

biomassa vegetal

otimização enzimática

Caulobacter crescentus

&#61538

-xylosidase

gene expression

xylose, mutant cells

agro-industrial residue

experimental design

saccharification

&#946

-xylosidase

Thermomyces lanuginosus

Atlantic Forest

Beta-xilosidases induzidas por resíduos agroindustriais: análise da regulaçãogênica em caulobacter crescentus e produçãoenzimática por thermomyces lanuginosus / PAPER 1 Depletion of the xynB2 gene upregulates β-Xylosidase expression in C. crescentus

Corrêa, Juliana Moço

27 November 2014

Made available in DSpace on 2017-07-10T19:23:52Z (GMT). No. of bitstreams: 1 JULIANA_ MOCO CORREA (2).pdf: 1734110 bytes, checksum: 24beceb790c634d766ff59c9de448991 (MD5) Previous issue date: 2014-11-27 / PAPER 1 Depletion of the xynB2 gene upregulates β-Xylosidase expression in C. crescentus. Caulobacter crescentus is able to express several enzymes involved in the utilization of lignocellulosic biomasses. Five genes, xynB1-5, that encode β-xylosidases are present in the genome of this bacterium. In this study, the xynB2 gene, which encodes - xylosidase II (CCNA_02442), was cloned under the control of the PxylX promoter to generate the O-xynB2 strain, which overexpresses the enzyme in the presence of xylose. In addition, a null mutant strain, -xynB2, was created by two homologous recombination events where the chromosomal xynB2 gene was replaced by a copy that was disrupted by the spectinomycin-resistant cassette. It was demonstrated that C. crescentus cells lacking -xylosidase II up-regulates the xynB genes inducing β- xylosidase activity. Transcriptional analysis revealed that xynB1 (RT-PCR analysis) and xynB2 (lacZ transcription fusion) gene expression was induced in the -xynB2 cells, and high -xylosidase activity was observed in the presence of different agroindustrial residues in the null mutant strain, a characteristic that can be explored and applied in biotechnological processes. In contrast, overexpression of the xynB2 gene caused down-regulation of the expression and activity of the -xylosidase. For example, the β-xylosidase activity that was obtained in the presence of sugar cane bagasse was 7-fold and 16-fold higher than the activity measured in the C. crescentus parental and O-xynB2 cells, respectively. Our results suggest that -xylosidase II may have a role in controlling the expression of the xynB1 and xynB2 genes in C.crescentus. PAPER 2 - OPTIMIZATION OF THE PRODUCTION β-XYLOSIDASE: A NEW Thermomyces lanuginosus ISOLATED FROM ATLANTIC FOREST BIOME. The successful production of enzymes for the deconstruction of plant biomass depends not only on the isolation and identification of new microorganism producers of hemicellulases, but also on the implementation and improvement of experimental strategies that lead to maximal induction of enzymatic activities. In this work, a new strain of Thermomyces lanuginosus (T. lanuginosus) was isolated from the Atlantic Forest biome in Brazil, and its β-xylosidase activity in response to agro-industrial residues was tested. Using the (CCRD) statistical approach as a strategy for optimization, the induction of β-xylosidase activity was evaluated in residual corn straw, which was used as a carbon source, and improved so that the optimum condition achieved high β-xylosidase activity (1,003 U ml -1; specific activity = 1.683 U mg-1) with 214 U ml -1. The optimal conditions for the crude enzyme extract were pH 5.5 and 60° C showing better thermostability at 55° C. The saccharification ability of β-xylosidase in the presence of hemicellulose obtained from corn straw and xylan from beechwood substrates showed a xylo-oligosaccharide to xylose conversion yield of 80 and 50%, respectively, at 50° C. These data suggest that β-xylosidase from T. lanuginosus isolated from the Atlantic Forest can be used for the saccharification of hemicellulose derived from corn straw, an abundant residue in the American continents, thus providing an interesting alternative for future tests for energy production that relies on the conversion of plant biomass. / RESUMO GERAL As Beta-D-Xilosidases (1,4-β-D-xilano xilohidrolase; EC 3.2.1.37) são glicosídeo hidrolases que tem papel crucial em catalizar a liberação de unidades de xilose a partir de xilo-oligossacarídeos derivados da degradação do xilano. A completa degradação do xilano é um passo chave do ciclo do carbono na natureza e é um processo também realizado por microrganismos. A bioconversão de materiais lignocelulósicos é vantajosa não somente do ponto de vista ambiental mais também econômico o que é recebido nos setores produtivos com um considerável interesse, pois esses materiais representam vasta fonte de carbono, que podem ser empregados no desenvolvimento de bioprocessos que resultam em produtos de alto valor agregado; entre os quais estão os açúcares fermentáveis, combustíveis, fármacos, enzimas e substâncias de interesse industrial, além de fazer uma gestão integrada do efluente que por não haver um desenvolvimento biotecnológico adequado é descartado e acumulado na natureza. Em face disso, o presente trabalho teve por objetivos estudar a regulação gênica do gene xynB2 da bactéria Caulobacter crescentus que codifica para a Beta-xilosidase II através de abordagens moleculares e otimizar a produção enzimática de Betaxilosidases de Thermomyces lanuginosus na presença de diferentes resíduos de biomassa vegetal por delineamento experimental. No primeiro artigo exploramos a bactéria aquática Caulobacter crescentus por possuir várias enzimas envolvidas na utilização de biomassas lignocelulósicas; contendo em seu genoma cinco genes que codificam β-xilosidases. A partir do gene xynB2, que codifica para enzima -xylosidase II (CCNA_02442), desenvolvemos duas linhagens mutantes denominadas O-xynB2, que super-expressa a enzima na presença de xilose e -xynB2 que tem o gene xynB2 interrompido, o que possibilitou avaliar que a ausência da enzima -xylosidase II em células de C. crescentus regula positivamente os genes xynB, induzindo a atividade global de β-xilosidases, revelando um papel regulatório para a mesma. No segundo trabalho um fungo da linhagem Thermomyces lanuginosus isolado de bioma de Mata Atlântica foi identificado e analisado quanto à capacidade de produzir Beta-xilosidases na presença de diferentes resíduos vegetais; em decorrência disso foi otimizado a produção enzimática com delineamento experimental DCCR, o que permitiu alcançar altos níveis de atividade enzimática beta-xilosidásica na presença de palha de milho.

regulação gênica

biomassa vegetal

otimização enzimática

Caulobacter crescentus

&#61538

-xylosidase

gene expression

xylose, mutant cells

agro-industrial residue

experimental design

saccharification

&#946

-xylosidase

Thermomyces lanuginosus

Atlantic Forest

Vliv mykorhizních a saprotrofních hub na výnosové vlastnosti a příjem dusíku u rajčete a póru / The effect of mycorrhizal nad saprotrophic fungi on yield properties and nitrogen uptake of tomato and leek plants

Kudláčková, Marta

January 2011

Currently looking for alternative approaches to crop production which would be in accord with sustainable development. The present thesis was aimed on testing of organic cultivation of tomato (Solanum lycopersicum L.) and leek (Allium porrum L.) by using amendment with organic maize biomass (Zea mays L.), mycorrhizal fungi and saprotrophic fungi. The effects of different combinations of microbial inoculations on nitrogen uptake, plant growth and yield were investigated in greenhouse conditions. Supplied 15 N-labelled organic matter was separated from the root system by a nylon mesh which permitted only fungal hyphae to pass through but not plant roots. In the first year experiments the treatments differed in the presence or absence of three factors: organic matter, saprotrophic fungus Agrocybe sp. and mycorrhizal fungus Glomus mosseae (Nicolaj & Gerd.) Gerd. & Trappe. Plant inoculation with Agrocybe sp. alone or together with G. mosseae increased plant growth of tomato in the presence of organic matter. Tomato yield were not increased significantly. Shoot dry weight of leek increased when plants were treated with mycorrhizal fungus G. mosseae and organic matter. Microbial inoculation did not influence nitrogen (15 N) uptake from the organic source. In following experiments, all treatments contained...