Production, characterization and application of proteases from Bacillus sp.

Orientador: Hélia Harumi SatoTese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia de AlimentosResumo: Proteases bacterianas são enzimas de elevada importância comercial, amplamente aplicadas em diversas áreas como nas indústrias de detergentes, de alimentos, farmacêutica e têxtil. Este trabalho teve como principais objetivos selecionar entre 59 linhagens de Bacillus sp., da coleção de culturas do Laboratório de Bioquímica de Alimentos da FEA, aquelas que apresentam potencial de maior produção de proteases com características tais como estabilidade em diferentes condições de temperatura, pH, detergentes e solventes orgânicos, atividade em ampla faixa de pH e capacidade de lisar células de Xanthomonas campestris. Em seguida, visou-se otimizar a produção de proteases pela linhagem selecionada, determinar as características bioquímicas da protease parcialmente purificada e estudar a aplicação do extrato enzimático bruto e preparação parcialmente purificada. Entre as cinquenta e nove linhagens de Bacillus sp. testadas foram selecionadas nove linhagens que produziram maior atividade de proteases. A produção de protease pelas nove linhagens foi testada em frascos agitados contendo o meio de cultura nº 1 (10g/L de caseína, 1g/L de extrato de levedura e sais), meio nº 2 (35 g/L de melaço de cana de açúcar, 20g/L de água de maceração de milho, 3g/L de extrato de levedura Prodex-Lac SD® e 20g/L de soro de queijo), e por fermentação em meio sólido nº 3 (farelo de trigo e água, na proporção 1:1, m:m). As linhagens de Bacillus sp. LBA 07, Bacillus sp. LBA 46 e Bacillus sp. LBA 08 fermentadas nos meios de cultura nº 1, nº 2 e nº 3 produziram 222 U/mL, 548 U/mL e 13480 U/grama de substrato seco (gss) respectivamente. As proteases dos extratos enzimáticos brutos obtidos das nove linhagens fermentadas nos três meios de cultura apresentaram atividade ótima na faixa de pH 7 a 9 e 60° C, estabilidade na faixa de pH 5 a 9 por 24h a 4º C , e após 1 h de tratamento a 50° C. Entre os extratos enzimáticos brutos de proteases testados, aqueles obtidas da fermentação de Bacillus sp. LBA 46 nos três meios de cultura foram as mais estáveis em detergente Ariel®. Quando incubadas em solventes orgânicos alguns extratos enzimáticos brutos proteases mantiveram mais de 60% de atividade residual após 24h em acetona (Bacillus sp. LBA 8 e 44), hexano (Bacillus sp. LBA 19, 29, 44, 46 e 60), clorofórmio (Bacillus sp. LBA 44 and 60) e etanol (Bacillus sp. LBA 60). Os extratos enzimáticos brutos de proteases obtidos do cultivo da linhagem de Bacillus sp. LBA 46 nos meios n° 2 e n° 3 foram as mais eficientes na lise de células de Xanthomonas campestris, aumentando cerca de 30% a transmitância a 620 nm (Trans 620nm) do meio fermentado de goma xantana. A linhagem de Bacillus sp. LBA 46 foi selecionada como melhor produtora de protease e estudos preliminares de identificação biomolecular indicam que se trata de uma linhagem de Bacillus licheniformis. Utilizando-se a linhagem de Bacillus sp LBA 46 e o meio de cultura otimizado (meio n° 4) por metodologia de superfície de resposta (MSR), composto de 40g/L de melaço de cana de açúcar, 6g/L de água de maceração de milho, 2g/L de extrato de levedura Prodex-Lac SD® e 20g/L de soro de queijo, foi obtido 3000 U/mL de protease após 96h de fermentação a 30° C e 200 rpm. No estudo da aplicação da enzima para a remoção de manchas de tecidos de algodão foram obtidos melhores resultados de remoção de manchas de sangue e molho de tomate com carne moída, utilizando-se a combinação de extrato bruto de protease (100 ou 1000U) com o detergente Omo®. O extrato enzimático bruto da linhagem de Bacillus sp. LBA 46 foi parcialmente purificado por fracionamento com sulfato de amônio (80% de saturação), diálise e cromatografia de filtração em gel (Sephadex G100), resultando em fator de purificação de 3,69. Após caracterização com MSR observou-se que a protease da preparação parcialmente purificada apresentou atividade ótima a 55° C e pH 7,5 e considerável estabilidade (95% de atividade residual) na faixa de pH 5,7 ¿ 9,3 após 1h de incubação a 30 ¿ 36° C, e acima de 78,9% quando incubadas por 1h em pH 7,5 e 50° C. A condição ótima de lise das células de X. campestris do meio fermentado de goma xantana utilizando-se o extrato enzimático bruto de protease e a preparação parcialmente purificada de proteases, foi observada utilizando 42 U de protease /mL de suspensão celular de X. campestris a 60° C, resultando em aumento de mais de 20% da Trans 620nm do meio fermentado de goma xantana. Um aumento de quase 40% de Trans 600nm foi observado após 2h de reação utilizando extrato enzimático bruto de protease (42 U de protease/mL de suspensão celular de X. campestris) a 65° C. A produção de proteases de Bacillus sp. LBA 46 por fermentação em estado sólido foi otimizada utilizando MSR, sendo obtido 5000 U/grama de substrato seco utilizando-se meio de cultura composto de farelo de trigo e água (60%:40%) após 96h de fermentação a 30° CAbstract: Proteases are commercially relevant enzymes widely applied in several industrial areas, such as in detergent, food, pharmaceutical and textile industries. Proteases from Bacillus sp. can present advantages compared to the proteases from other sources, including better thermostability, stability in pH range from slightly acid to alkaline pH values and stability in organic solvents. The aims of this work were selecting Bacillus sp. strains with capability of producing proteases with better biochemical properties, such as stability in different conditions of temperature, pH, detergents and organic solvents, activity in a wide range of pH and capability of lysing cells of Xanthomonas campestris. Afterwards, it was aimed the optimization of the production of proteases by the selected Bacillus sp. strain and the determination of the biochemical characteristics of the partially purified protease and the application of the crude and partially purified protease. Nine Bacillus sp. strains were selected as the best protease producers among fifty nine Bacillus sp. strains tested. The protease production by the nine strains was carried out in Erlenmeyer flasks containing medium no. 1 (10g /L of casein, 1g/L of yeast extract and salts), medium no. 2 (35 g/L of sugar cane molasses, 20g/L corn steep liquor, 3g/L of yeast extract Prodex-Lac SD® and 20g/L of dried whey), e by fermentation using solid substrate medium no. 3 (wheat bran and water, 1:1, m:m). The strains Bacillus sp. LBA 07, Bacillus sp. LBA 46 and Bacillus sp. LBA 08 when fermented in medium no. 1, no. 2 e no. 3 produced 222 U/mL, 545 U/mL and 13480 U/gram of dried substrate (gds) respectively. Proteases from the crude enzymatic extracts obtained from the fermentation of the nine Bacillus sp. strains in the three media showed optimal activity in pH range 7-9 and 60° C, stability in pH range 5-9 for 24 hours at 4° C and after 1h at 50° C. The protease preparations from the fermentation of Bacillus sp. LBA 46 in the three media were the most stable when incubated in detergent Ariel®, among the proteases tested from the Bacillus sp. strains. In addition, some proteases presented more than 60% residual activity after 24h in the organic solvents acetone (Bacillus sp. LBA 8 and 44), hexane (Bacillus sp. LBA 19, 29, 44, 46 and 60), chloroform (Bacillus sp. LBA 44 and 60) and ethanol (Bacillus sp. LBA 60). The protease preparations obtained from the cultivation of Bacillus sp. LBA 46 in medium no. 2 and no. 3 presented the best results on the lysis of Xanthomonas campestris cells, resulting in an increase of approximately 30% in transmittance at 620 nm (Trans 620nm) of the fermented broth of xanthan. Bacillus sp. LBA 46 strain was selected as the best protease producer and after preliminary biomolecular analysis of identification, the results indicate that this microorganism correspond to a Bacillus licheniformis strain. Protease preparation containing 3000 U/mL was obtained from Bacillus sp. LBA 46 cultivated in Erlenmeyer flasks containing medium no. 4 composed of 40g/L of sugar cane molasses, 6g/L of corn steep liquor, 2g/L of yeast extract Prodex-Lac SD® and 20 g/L of dried whey after 96h of fermentation at 30° C and 200 rpm, optimized with response surface methodology (RSM). In the the washing tests, the best results of the removal of blood and tomato sauce with ground beef stains from cotton fabrics were observed using the combination of crude extract of protease (100 or 1000U) with detergent Omo®. Crude protease extract of the Bacillus sp. LBA strain was partially purified by ammonium sulfate fractionation (80% saturation), dialysis and gel filtration chromatography (Sephadex G100), resulting in the purification fold of 3.69. After characterization with RSM it was observed that the crude protease extract and partially purified proteases presented optimal activity at 55° C and pH 7.5 and considerable stability (95% of residual activity) in pH range 5.7 ¿ 9.3 after 1h incubation at 30-36° C and more than 78.9% when incubated at pH 7.5 and 50 °C for 1h. The optimal conditions of the lysis of X. campestris cells contained in the fermentation broth using crude and partially purified protease preparations were observed using 42 U of protease/mL of cell suspension of X. campestris at 60° C, resulting in a increase of more than 20% in Trans 620 nm of the fermented broth of xanthan. It was observed an increase of almost 40% in Trans 620 nm after 2h reaction using crude protease (42 U de protease/mL of cell suspension of X. campestris) at 65° C. The production of proteases by Bacillus sp. LBA 46 under solid state fermentation was optimized using RSM, resulting in 5000 U/gram of dry substrate utilizing wheat bran and water (6g:4g) after 96h of fermentation at 30° CDoutoradoCiência de AlimentosDoutor em Ciência de Alimento

Characterization and immobilization of glucosyltransferase from Erwinia sp. D12 which converts sucrose into isomaltulose

Orientador: Helia Harumi SatoDissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia de AlimentosResumo: A isomaltulose é um dissacarídeo redutor, isômero da sacarose, com propriedades interessantes para a indústria de alimentos. Este açúcar apresenta propriedades similares às da sacarose, entretanto, apresenta baixo potencial cariogênico e baixo índice glicêmico. A isomaltulose é produzida industrialmente através da conversão enzimática da sacarose pela enzima glicosiltransferase produzida por certas linhagens de bactérias, como Protoaminobacter rubrum e Erwinia rhapontici. Este trabalho teve por objetivo purificar e caracterizar a glicosiltransferase produzida pela Erwinia sp. D12 e imobilizar a glicosiltransferase bruta em Celite e pectina de baixo teor de metoxilas (BTM). A glicosiltransferase foi purificada por cromatografia em coluna de troca catiônica SP-Sepharose Fast Flow, obtendo-se duas frações com atividade de glicosiltransferase. A enzima da fração n° 17 foi purificada cerca de 17,9 vezes, e a massa molecular foi estimada em 65 kDa, por SDS-PAGE. A glicosiltransferase bruta e as frações purificadas apresentaram atividade ótima em pH de 6,0 a 6,5 e em temperatura de 30 a 35°C e estabilidade na faixa de pH de 5,0 a 7,0 e em temperaturas inferiores a 30°C, sendo que as frações purificadas apresentaram menor estabilidade. As condições ótimas de imobilização da glicosiltransferase bruta em Celite foram pH 4,0 para adsorção da enzima no suporte, e quantidade de enzima de 1700 U. A glicosiltransferase bruta imobilizada em Celite, em processo de batelada e em coluna de leito empacotado, converteu cerca de 50% de sacarose em isomaltulose, porém a conversão diminuiu com o tempo. O tratamento da glicosiltransferase imobilizada em Celite com 0,1% de glutaraldeído não resultou em aumento da retenção e estabilidade da enzima. A glicosiltransferase imobilizada em gel de pectina BTM com adição de gordura manteve maior atividade de glicosiltransferase que as preparações de enzima imobilizada sem gordura e liofilizadas. Quando essa preparação foi aplicada em processo de batelada foi observada conversão inicial em torno de 30% com queda gradativa nas posteriores bateladas. Em colunas de leito empacotado foi observada conversão de sacarose em isomaltulose máxima de 10,5% em 2 horas, sendo que após 60 horas foi igual a 3%Abstract: Isomaltulose is a reducing disaccharide and an isomer of sucrose. Because of its properties it is interesting for application in the food industry. This sugar shows similar properties to sucrose, but it has low cariogenic potential and low glycemic index. Industrially, isomaltulose is produced by conversion of sucrose using glucosyltransferase. This enzyme is produced by few bacterial strains such as Protoaminobacter rubrum and Erwinia rhapontici. The aims of this research were the purification and characterization of glucosyltransferase produced by Erwinia sp. D12 and the immobilization of the crude enzyme in Celite and low-metoxyl pectin. The glucosyltransferase was purified using cationic exchange column of SPSepharose Fast Flow and it was obtained two fractions with glucosyltransferase activity. The enzyme found in 17th fraction was purified 17.9-fold, and showed a molecular mass of 65 kDa, by SDS-PAGE. The crude glucosyltransferase and the purified fractions showed optimum activity in pH of 6.0 ¿ 6.5 and 30 ¿ 35°C and stability in pH 5.0 to 7.0 and under 30°C, and the purified preparation was less stable than the crude enzyme. The optimum condition of the immobilization of crude glucosyltransferase was using pH 4.0 for the adsorption of the enzyme into the support, and amount of enzyme of 1700 U. The glucosyltransferase immobilized on Celite was applied to the conversion of sucrose into isomaltulose in a batch system and packed-bed reactor. A conversion rate of 50% was observed, but this decreased over a period of hours. The treatment of the immobilized glucosyltransferase on Celite, with 0.1% glutharaldehyde did not increase the stability of the enzyme. The immobilization of crude glucosyltransferase in lowmetoxyl pectin with a fat addition, presented a higher activity when compared to microcapsules without fat or freeze dried. When this preparation was applied to the conversion of sucrose into isomaltulose, in a batch system, it was observed an initial conversion rate of 30%. However this value decreased in further batches. In the packed-bed reactors, the highest conversion value of sucrose to isomaltulose was 10.5% in 2 hours, but after 60 hours the conversion was 3%MestradoBioquimica de AlimentosMestre em Engenharia de Alimento

Synthesis of structured triacylglycerols enriched in n-3 fatty acids by immobilized microbial lipase

The search for new biocatalysts has aroused great interest due to the variety of micro-organisms and their role as enzyme producers. Native lipases from Aspergillus niger and Rhizopus javanicus were used to enrich the n-3 long-chain polyunsaturated fatty acids content in the triacylglycerols of soybean oil by acidolysis with free fatty acids from sardine oil in solvent-free media. For the immobilization process, the best lipase/support ratios were 1:3 (w/w) for Aspergillus niger lipase and 1:5 (w/w) for Rhizopus javanicus lipase using Amberlite MB-1. Both lipases maintained constant activity for 6 months at 4 °C. Reaction time, sardine-free fatty acids:soybean oil mole ratio and initial water content of the lipase were investigated to determine their effects on n-3 long-chain polyunsaturated fatty acids incorporation into soybean oil. Structured triacylglycerols with 11.7 and 7.2% of eicosapentaenoic acid + docosahexaenoic acid were obtained using Aspergillus niger lipase and Rhizopus javanicus lipase, decreasing the n-6/n-3 fatty acids ratio of soybean oil (11:1 to 3.5:1 and 4.7:1, respectively). The best reaction conditions were: initial water content of lipase of 0.86% (w/w), sardine-free faty acids:soybean oil mole ratio of 3:1 and reaction time of 36 h, at 40 °C. The significant factors for the acidolysis reaction were the sardine-free fatty acids:soybean oil mole ratio and reaction time. The characterization of structured triacylglycerols was obtained using easy ambient sonic-spray ionization mass spectrometry. The enzymatic reaction led to the formation of many structured triacylglycerols containing eicosapentaenoic acid, docosahexaenoic acid or both polyunsaturated fatty acids.47410061013CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQFUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESPSem informaçãoSem informaçã

Enzyme-assisted modification of flavonoids from Matricaria chamomilla: antioxidant activity and inhibitory effect on digestive enzymes

Matricaria chamomilla L. contains antioxidant flavonoids that can have their bioactivity enhanced by enzymatic hydrolysis of specific glycosyl groups. This study implements an untargeted metabolomics approach based on ultra-performance liquid chromatography coupled with electrospray ionisation quadrupole time-of-flight mass spectrometry technique operating in MSE mode (UPLC-QTOF-MSE) and spectrophotometric analysis of chamomile aqueous infusions, before and after hydrolysis by hesperidinase and ?-galactosidase. Several phenolic compounds were altered in the enzymatically treated infusion, with the majority being flavonoid derivatives of apigenin, esculetin, and quercetin. Although enzymatically modifying the infusion only led to a small increase in antioxidant activity (DPPH? method), its inhibitory effect on pancreatic lipase was of particular interest. The enzymatically treated infusion exhibited a greater inhibitory effect (EC50 of 35.6??M) than unmodified infusion and kinetic analysis suggested mixed inhibition of pancreatic lipase. These results are of great relevance due to the potential of enzymatically treated functional foods in human health3514249CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQCOORDENAÇÃO DE APERFEIÇOAMENTO DE PESSOAL DE NÍVEL SUPERIOR - CAPESFUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESPsem informaçãosem informação2012/20393–

Advances in Recombinant Lipases: Production, Engineering, Immobilization and Application in the Pharmaceutical Industry

Lipases are one of the most used enzymes in the pharmaceutical industry due to their efficiency in organic syntheses, mainly in the production of enantiopure drugs. From an industrial viewpoint, the selection of an efficient expression system and host for recombinant lipase production is highly important. The most used hosts are Escherichia coli and Komagataella phaffii (previously known as Pichia pastoris) and less often reported Bacillus and Aspergillus strains. The use of efficient expression systems to overproduce homologous or heterologous lipases often require the use of strong promoters and the co-expression of chaperones. Protein engineering techniques, including rational design and directed evolution, are the most reported strategies for improving lipase characteristics. Additionally, lipases can be immobilized in different supports that enable improved properties and enzyme reuse. Here, we review approaches for strain and protein engineering, immobilization and the application of lipases in the pharmaceutical industry