Return to search

Produ??o, concentra??o e caracteriza??o parcial de extrato celulol?tico produzido por linhagem f?ngica mutante

Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2016-08-03T16:30:05Z
No. of bitstreams: 1
2011 - Alex da Silva Santos.pdf: 1990293 bytes, checksum: b92b4e5aec031d9fcd17900f0f1ef9c8 (MD5) / Made available in DSpace on 2016-08-03T16:30:05Z (GMT). No. of bitstreams: 1
2011 - Alex da Silva Santos.pdf: 1990293 bytes, checksum: b92b4e5aec031d9fcd17900f0f1ef9c8 (MD5)
Previous issue date: 2011-02-28 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior, CAPES / The production of enzymes for application at different areas of food agroindustry presents promising future perspectives, due to several intrinsic properties regarded to the performance of the enzymes as natural and biodegradable compounds, responsible for achieving specific reactions with better quality. Cellulases have been the most employed enzymes on food industry, acting sinergically on the hydrolysis of the glucosidic links ?-1,4 from the molecules of cellulose, and being used on several applications in this sector as in vegetal oils extraction, fruit maceration and juice clarification. Based on this context, the present study aimed to produce, concentrate and partially characterize an enzymatic extract by a mutant fungus strain of Aspergillus niger. Production was performed by solid-state fermentation (SSF) in aerated columns, using humidified wheat bran with (NH4)2SO4 solution on 0,1N HCl as substrate and cellobiose as inducer. Cellulolytic extract was a blend of extracts from three different assays selected on previous studies as the best conditions for the enzymes caboxymethilcellulase, ?-glucosidase and filter paper cellulose (FPase). During the characterization of the enzymatic extract, besides cellulases activity, the presence of protease and other enzymes with similar action to cellulases as xylanase and poligalacturonase was evaluated. For enzymatic extract concentration, three different strategies were performed: ultrafiltration, using a stainless steel plates system through a 20 kDa molecular weight cut-off polyethersulphone membrane and 0,014 m2 area; precipitation with ammonium sulphate under 20%, 40 %, 60% and 80% saturation level and lyophiilization. The best results were achieved by the ultrafiltration process, partially purified sample and providing enzymatic activities recovery between 75% and 99%, except for FPase. SDS-PAGE analysis presented 15 visible protein bands on cellulolytic extract with molecular weights ranging from 13.3 to 104.6 kDa. Zymography test was applied for cellulases and correlate enzymes as well as to protease, however, just for the last one the conditions were considered appropriate, identifying bands on 88, 103 and 145 kDa. The effective performance of ?-glucosidase and xylanase over xylan and cellobiose hydrolysis was confirmed by thin layer chromatography. A central rotational statistical design 22 with 4 central points was used for evaluating optimal temperature and pH for carboxymethylcellulase and ?-glucosidase. The analysis of the results obtained for both enzymes demonstrated that all variables were significative at a 95% confidence level. Based on the conditions studied it can be concluded that optimal pH and temperature ranges for efficient and combined action of carboxymethylcellulase and ?-glucosidase are 3.7 to 5.5 and 60 to 65?C, respectively. / A produ??o de enzimas para uso em diferentes ?reas da agroind?stria de alimentos mostra perspectivas futuras promissoras, devido ?s v?rias caracter?sticas inerentes ? a??o das enzimas que s?o compostos naturais, biodegrad?veis e capazes de desempenhar rea??es espec?ficas com melhor qualidade. Entre as enzimas mais utilizadas pelo setor de alimentos est?o as celulases, um complexo de enzimas que atuam de forma sin?rgica sobre a hidr?lise das liga??es glicos?dicas ?-1,4 das mol?culas de celulose, e possuem v?rias aplica??es industriais neste setor, como na extra??o de ?leos vegetais, na macera??o de frutas e na clarifica??o de sucos. Dentro deste contexto, este trabalho teve como objetivo produzir, concentrar e caracterizar parcialmente um extrato celulol?tico obtido por linhagem f?ngica mutante de Aspergillus niger. A produ??o foi realizada por fermenta??o no estado s?lido (FES) em colunas aeradas, utilizando como substrato farelo de trigo triturado umidificado com solu??o de (NH4)2SO4 em HCl 0,1N e celobiose, como indutor. O extrato celulol?tico consistiu de uma mistura de extratos obtidos em 3 ensaios fermentativos diferentes, selecionados em trabalhos anteriores como as melhores condi??es para produ??o de cada uma das enzimascarboximetilcelulase (CMCase), ?-glicosidase e celulase em papel de filtro (FPase). Durante a caracteriza??o do extrato enzim?tico, al?m da atividade das celulases, tamb?m era avaliado o teor de prote?na, a presen?a de protease e de enzimas correlatas ? a??o de celulases como xilanase e poligalacturonase. Para concentra??o do extrato enzim?tico foram realizadas tr?s diferentes estrat?gias: ultrafiltra??o em um sistema de quadro e placas em a?o inox, utilizando uma membrana de polietersulfona com massa molar de corte de 20 kDa e ?rea de 0,014m2; precipita??o com sulfato de am?nio utilizando satura??es de 20%, 40%, 50%, 60%, 80% e liofiliza??o. O processo de ultrafiltra??o foi o que obteve o melhor resultado, purificando parcialmente a amostra e proporcionando uma recupera??o das atividades enzim?ticas entre 75% e 99% para todas as atividades avaliadas, exceto FPase. A an?lise eletrofor?tica em SDS-PAGE demonstrou a presen?a de 15 bandas vis?veis de prote?nas no extrato celulol?tico com pesos moleculares que compreendem uma faixa entre 13,3 e 104,6 kD. O teste de zimografia foi realizado para as celulases e enzimas correlatas, bem como para protease, no entanto somente para esta ?ltima, as condi??es testadas foram adequadas tornando-se poss?vel identificar bandas em 88, 103 e 145 kDa. A efetiva a??o das enzimas ?-glicosidase e xilanase na hidr?lise de celobiose e xilana, respectivamente,foi comprovada em cromatografia de camada fina. Al?m disso, a temperatura e pH ?timos de atua??o de carboximetilcelulase e ?-glicosidase foram determinados utilizando o delineamento composto central rotacional 22, com 4 pontos centrais. A an?lise dos resultados de ambas as enzimas demonstrou que as vari?veis eram significativas, a um n?vel de confian?a de 95%. Com base nas condi??es estudadas, concluiu-se que as faixas de pH e temperatura ?timos para a atua??o eficiente e conjunta de CMCase e ?-glicosidase est?o entre 3,7 a 5,5 e 60 a 65 ?C, respectivamente.

Identiferoai:union.ndltd.org:IBICT/oai:localhost:jspui/1152
Date28 February 2011
CreatorsSantos, Alex da Silva
ContributorsDamaso, Monica Caramez Triches, Couri, Sonia
PublisherUniversidade Federal Rural do Rio de Janeiro, Programa de P?s-Gradua??o em Ci?ncia e Tecnologia de Alimentos, UFRRJ, Brasil, Instituto de Tecnologia
Source SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis
Formatapplication/pdf
Sourcereponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ
Rightsinfo:eu-repo/semantics/openAccess
Relation8. REFER?NCIAS BIBLIOGR?FICAS AGUIAR, C.L.; MENEZES, T.J.B. Produ??o de celulases e xilanase por Aspergillus niger IZ-9 usando fermenta??o submersa sobre baga?o de cana-de-a??car. Boletim do CEPPA, Curitiba, v. 18, n. 1, p. 57-70, jan./jun.2000. AGUIAR, C.M. Hidr?lise enzim?tica de res?duos lignocelul?sicos utilizando celulases produzidas pelo fungo Aspergillus niger. 2010. Disserta??o (Mestrado em Engenharia Qu?mica) - Universidade Estadual do Oeste do Paran?. Toledo, PR. 2010. ALBERTON, L.R. Produ??o de xilanase em res?duos agroindustriais por Streptomyces viridosporus T7A e aplica??o do extrato bruto em veterin?ria. 2004. 132f. Tese (Doutorado em Processos Biotecnol?gicos) ? Universidade Federal do Paran?, Curitiba, PR, 2004. ALBERTON, L.R.; VANDENBERGHE, L.P.S.; ASSMANN, R.; FENDRICH, R. C.; RODRIGU?Z-LE?N, J. SOCCOL, C.R. Xylanase Production by Streptomyces viridosporus T7A in Submerged and Solid-State Fermentation Using Agro-Industrial Residues. Brazilian archives of biology and technology. Vol. 52, Special Number, p. 171-180, Nov. 2009. ANDREAUS, J.; CAVACO-PAULO, A.; Enzimas no processamento de fibras t?xteis. In: BOM, E. P. S.; FERRARA, M. A.; CORVO, M. L.; VERMELHO, A. B.; PAIVA, C. L. A.; ALENCAR, R. B. de; COELHO, R. R. R., Enzimas em biotecnologia: produ??o, aplica??es e mercado. ? Rio de Janeiro: Interci?ncia, p. 241-271, 2008. AZEREDO, L. A. I.; LEITE, S. G. F.; FREIRE, D. M. G.; BENCHETRIT, L. C.; COELHO, R. R. R. Proteases from actinomycetos interfere in solid media plate assays of hialuronidase activity. Journal of Microbiological Methods, Amsterdam, v. 45, n. 3, p. 207-212, July 2001. BAKER, R.W. Membrane technology and applications. Inglaterra: John Wiley & Sons Ltd. 2ed. 538 p. 2004. BHAT, M. K. Cellulases and related enzymes in biotechnology. Biotechnology Advances, New York, v. 18, p. 355-383, 2000. BHIRI, F.; CHAABOUNI, S.E.; LIMAM, F.; GHRIR, R.; MARZOUKI, N.; Purification and biochemical characterization of extracellular beta-glucosidases from the hypercellulolytic Pol6 mutant of Penicillium occitanis, Applied Biochemistry Biotechnology, v.149, p. 169-182, 2008. BIAZUS, J. P. M. ; SANTANA, J.C.C. ; SOUZA, R.R.; JORD?O, E.; TAMBOURGI, E.B.,Continuous extraction of ?- and ?-amylases from Zea mays malt in a PEG 4000/ CaCl2 ATPS. Journal of Chromatography B, v. 858, n. 1, p. 227-233, 2007. 62 BIAZUS, J. P. M.; SEVERO, J.B., J.r.; SANTANA, J.C.C.; SOUZA, R.R.; TAMBOURGI, E.B., Study of amylases recovery from maize malt by ion-exchange expanded bed chromatography. Process Biochemistry, v. 41, n. 8, p. 1786-1791, 2006. BON, E. P. S.; G?RIO, F.; PEREIRA Jr., N., Enzimas na produ??o de etanol. In: BOM, E. P. S.; FERRARA, M. A.; CORVO, M. L.; VERMELHO, A. B.; PAIVA, C. L. A.; ALENCAR, R. B. de; COELHO, R. R. R., Enzimas em biotecnologia: produ??o, aplica??es e mercado. ? Rio de Janeiro: Interci?ncia, p. 241-271, 2008. BON, E. P. S.; G?RIO, F.; PEREIRA JR., N. Enzimas na produ??o de etanol. In: BON, E. P. S.; FERRARA, M. A.; CORVO, M. L. Enzimas em biotecnologia: produ??o, aplica??o e mercado. Rio de Janeiro, RJ: Interci?ncia,. p. 241-271. 2008. BRACHT, A.; ISHII-IWAMOTO, E.L. M?todos de Laborat?rio em Bioqu?mica. Ed. Manole, S?o Paulo, 2003. CAMPESTRINI, E.; SILVA, V.T.M.; APPELT, M.D. Utiliza??o de enzimas na alimenta??o animal. Revista Eletr?nica Nutritime, v.2, n?6, p.259-272, 2005. Dispon?vel em: <http://www.nutritime.com.br/arquivos_internos/artigos/050V5N1P498_503_JAN2008.pdf>. Acesso em: 18 out 2011. CARPENTER, J. F.; IZUTSU, K.; RANDOLPH, T. W. Freezing- and drying-induced perturbations of protein structure and mechanisms of protein protection by stabilizing additives. In: Rey, L., Freezing-drying/lyophilization of pharmaceutical and biological products, Louis Rey (ed.), 1999. CASTRO, A.M. Produ??o e propriedades de celulases de fungos filamentosos, obtidas a partir de baga?o de cana-de-a??car (Saccharum spp.). 2006. 212 f. Disserta??o (Mestrado em Tecnologia de Processos Qu?micos e Bioqu?micos) - Universidade Federal do Rio de Janeiro, Rio de Janeiro, 2006. CASTRO, A.M.; PEREIRA JR, N. Produ??o, propriedades e aplica??o de celulases na hidr?lise de res?duos agroindustriais.Qu?mica Nova, vol.33, n.1, pp. 181-188. 2010. CERVONE, F.; LORENZO, G.; DEGRA, L.; SALVI, G.; BERGAM, M. Purification and Characterization of a Polygalacturonase-Inhibiting Protein from Phaseolus vulgaris L. Plant Physiology, v.85, p. 631-637, 1987. CHARNEY, J.; TOMARELLI, R.M.A colorimetric method for the determination of the proteolytic activity of duodenal juice.Journal of Biological Chemistry, v. 23, p. 501-505, 1947. CHERYAN, M. Ultrafiltration and microfiltration handbook. Lancaster, PA: Technomic Publishing Company, 1998. COUGHLAN, M.P. The properties of fungal and bacterial cellulases with comment on their production and application, Biotechnology e genetic reviews, v. 3, p. 39-109, 1985. 63 COURI, S. Efeito de c?tions na morfologia do agregado e na produ??o de poligalacturonase por Aspergillus niger mutante 3T5B8. 1993, 199 p., Tese (Doutorado), UFRJ, Rio de Janeiro, 1993. COURI, S.; FARIAS, A. X. Genetic manipulation of Aspergillus niger for increased synthesis of pectinolytic enzymes. Brazilian journal of microbiology, v. 26, p. 314?317. 1995. COURI, S.; TERZI, S.C.; FARIAS, A.X.; FRAGA, M.; PEIXOTO, V.C.; DAMASO, M.C.T. Production of Cellulases by Filamentous Fungi and Characterization of the Crude Enzyme. In: 5 th INTERNATIONAL TECHNICAL SYMPOSIUM ON FOOD PROCESSING, MONITORING TECHNOLOGY IN BIOPROCESSES AND FOOD QUALITY MANAGEMENT, 2009, Potsdam, Alemanha. Anais. GIGR-ATB, v. 1, p. 1-4, 2009. COUTINHO. C.M., MING, C.C., BASSO, R.C., RIBEIRO, A.P.B., GON?ALVES, L.A.G., VIOTTO, L.A. State of art of the application of membrane technology to vegetable oils: A review. Food Research International, v. 42, p. 536?550, 2009. COUTO, S. R.; SANDROM?N, M. A. Aplication of solid-state fermentation to ligninolytic enzyme production. Biochenical Engineering Journal, v. 2, n. 3, p. 211 ? 219, 2005. CUIXIA DI, MING LI, FENG LONG, MUQUN BAI, YAJIE LIU, XIAOLIN ZHENG, SHIJIAN XU, YUN XIANG, ZHENGLONG SUN AND LIZHE AN, Molecular cloning, functional analysis and localization of a novel gene encoding polygalacturonase-inhibiting protein in Chorispora bungeana, Planta, v. 231, n 1, p.169-178, 2009. D?ALMEIDA, M.H. Celulose e Papel: Tecnologia de fabrica??o do papel, 2 vol. 2 ed. S?o Paulo, SENAI/IPT, 1988. DILLON, A. Celulases. In: SAID, S.; PIETRO, R. C. L. Enzimas como agentes biotecnol?gicos. Ribeir?o Preto: Legis Summa, p. 243-270, 2004. DYKA, J S V; SAKKAB, M.; SAKKAB, K.; PLETSCHKEA, B. I., The cellulolytic and hemi-cellulolytic system of Bacillus licheniformis SVD1 and the evidence for production of a large multi-enzyme complex. Enzyme and Microbial Technology, v.45, p.372?378, 2009. ELISASHVILI, V.L. Biosynthesis and properties of cellulases and xylanases of higher Basidiomycetes. Applied Biotechnology and Microbiology, New York, v. 29, p. 257-266, 1993. FACCHINI, F. D. A.; VICI, A. C.; REIS, V. R. A.; JORGE, J. A.; TERENZI, H. F.; REIS, R. A.; POLIZELI, M. L. T. DE M., Production of fibrolytic enzymes by Aspergillus japonicus C03 using agro-industrial residues with potential application as additives in animal feed, Bioprocess and Biosystems Engineering, v. 34, p. 347?355, 2011. FARIA, L.A. Hidr?lise do ?leo da am?ndoa da maca?ba com lipase extracelular de Colletotrichum gloesporioidesproduzida por fermenta??o em substrato l?quido. 2010. 64 Disserta??o (Mestrado em Ci?ncia de Alimentos) - Faculdade de Farm?cia, Universidade Federal de Minas Gerais, Belo Horizonte, MG, 2010. GANDRA, K. M.; BIANCHI, M. del; GODOY, V. P.; QUEIROZ, F. P. C.; STEEL, C. J. Aplica??o de lipase e monoglicer?deo em p?o de forma enriquecido com fibras. Ci?ncia e Tecnologia de Alimentos, vol.28, n.1, p. 182-192, 2008. GAO, J.; WENG, H.; ZHU, D.; YUAN, M.; GUAN, F.; XI, Y., Production and characterization of cellulolytic enzymes from the thermoacidophilic fungal Aspergillus terreus M11 under solid-state cultivation of corn stover, Bioresource Technology, v.99, p.7623?7629, 2008. GERHARTZ, W. (ed.) General production methods. In: _. Enzymes in industry: production and applications. Weinheim (Alemanha): VCH, Cap.3, p. 43-53. 1990. GOMES, C.A.O. Produ??o de enzimas despolimerizantes por fermenta??o em meio semi s?lido por Aspergillus niger 3T5B8, 1995. 95 f. Disserta??o (Mestrado em Ci?ncias e Tecnologia de Alimentos) - Instituto de Tecnologia, Universidade Federal Rural do Rio de Janeiro. Serop?dica, RJ, 1995. GOMES, J.; GOMES, I.; STEINER, W.; ESTERBAUER, H. Production of cellulase and xylanase by a wild strain of Trichoderma viride.Applied Microbiology and Biotechnology, v.36, p. 701-707, 1992. HABERT, A. C.; BORGES, C. P.; NOBREGA, R. Processos de separa??o por membranas. Rio de Janeiro: Ed. e-papers, 180 p., 2006. HAROS, M.; ROSELL, C. M.; BENEDITO, C. Effect of different carbohydrases on fresh bread texture and bread staling. European Food Research and Technology, Berlin, v. 215, n. 5, p. 425-430, 2002. HESSELTINE, C. W. Solid State Fermentation: an overview. International Biodeterioration, v. 23, p.78-79, 1987. HIDENO, A.; INOUE, H.; TSUKAHARA,K.; YANO, S.; FANG, X.; ENDO, T.; SAWAYAMA, S., Production and characterization of cellulases and hemicellulases by Acremonium cellulolyticus using rice straw subjected to various pretreatments as the carbon source. Enzyme and Microbial Technology. v. 48, p. 162-168, 2011. JEFFRIES, T.W..Biodegradation of lignin-carbohydrate complexes. Biodegradation. Vol. 1, p.163-176, 1990. KANFER, J.N.; HAKOMORI, S. Sphingolipidoses; Glycosphingolipids; Metabolism. New York: Plenum Press, 435 p., 1983. KHANNA, S.; GAURI. Regulation, purification, and properties of xylanase from Cellulomonas fimi, Enzyme and Microbial Technology, v. 15, p. 990-995, 1993. 65 KIELING, D. D. Enzimas: Aspectos gerais. Universidade Federal de Santa Catarina, Departamento de Engenharia Qu?mica e Engenharia de Alimentos. Florian?polis, 2002. Dispon?vel em: <http://www.enq.ufsc.br/labs/probio/disc_eng_bioq/lista_exerc/enzimas_aspectos_gerais.pdf>. Acessado em 08 dez. 2010. KOROTKOVA, O.G.; SEMENOVA, M.V.; MOROZOVA, V.V.; ZOROV, I.N.; SOKOLOVA, L.M.; BUBNOVA, T.M.; OKUNEV, O.N.; Sinitsyn, A.P.; Isolation and properties of fungal ?-glucosidases, Biochemistry (Moscow), v.74, p. 569-577, 2009. KOV?CS, K.; SZAKACS, G; ZACCHI, G. Comparative enzymatic hydrolysis of pretreated spruce by supernatants, whole fermentation broths and washed mycelia of Trichoderma reesei and Trichoderma atroviride. Bioresource Tecnology. V. 100, p. 1350-1357, Fev. 2009. KRSTIC, D.M.; ANTOV, M.G.; PERICIN, D.M.; HOFLINGER, W.; TEKIC, M.N.The possibility for improvement of ceramic membrane ultrafiltration of an enzyme solution. Biochemical Engineering Journal, v. 33, p. 10?15, 2007. LACKS, S.A.; SPRINGHORN, S.S. Renaturation of enzymes after polyacrilamide gel eletrophoresis in the presence of sodium dodecyl sulfate. The Journal of Biological Chemistry. v. 255, p.7467-7473, 1980. LADISCH, M. R. Bioseparations Engineering. New York: Wiley-Interscience, 753 p., 2001. LAEMMLI, U.K. Cleavage of structura proteins during the assembly of the head of bacteriophage T4. Nature. v. 227, p. 680-685. 1970. LECHNER, B.E.; PAPINUTTI, V.L., Production of lignocellulosic enzymes during growth and fruiting of the edible fungus Lentinus tigrinus on wheat straw, Process biochemistry, v. 41, p.594-598, 2006. LIMA, M. R.; SILVA, V. P. A.; FURTADO, R. F.; ALVES, C. R.; GUEDES, M. I.F.; DUTRA, R. A. F.; Purifica??o de ricina a partir de satura??o com sulfato de am?nio. In: III CONGRESSO BRASILEIRO DE MAMONA, ENERGIA E RICINOQU?MICA,2008, Salvador. Anais. Salvador, 2008. Dispon?vel em: <http://www.cnpa.embrapa.br/produtos/mamona/publicacoes/cbm3/trabalhos/OLEO%20E%20CO-PRODUTOS/OCP%2007.pdf> LIU, J.; XIA, W., Purification and characterization of a bifunctional enzyme with chitosanase and cellulase activity from commercial cellulose, Biochemical Engineering Journal, v. 30, p. 82-87, 2006. LOWRY, O H., ROSEBROUGH, N.J., FARR, A L., RANDALL, R. Protein measurement with the Folin phenol reagent. TheJournal Biological Chemistry, v.193, p. 265-275, 1951. 66 LUCARINI, A.C.; KILIKIAN, B.V.; PESSOA JR., A. Precipita??o.In: KILIKIAN, B.V.; PESSOA JR., A. (Ed.) Purifica??o de produtos biotecnol?gicos. Barueri: Editora Manole, p. 89-113, 2005. LYND, L.R.; WEIMER, P. J.; VAN ZYL, W. H.; PRETORIUS, I. S. Microbial Cellulose Utilization: Fundamentals and Biotechnology. Microbiology andMolecular Biology Reviews, v.66, p. 506, 2002. LYND, L.R.; ZHANG, Y. Quantitative determination of cellulase concentration as distinct from cell concentration in studies of microbial cellulose utilization: Analytical framework and methodological approach. Biotechnology & Bioengineering, v. 77, p. 467-475. fev. 2002. MADAMWAR, D.; SHAH, A. R. Xylanase production by a newly isolated Aspergillus foetidus strain and its characterization, Process Biochemistry, v.40, p.1763?1771, 2005. MASE, T.; MORI, S.; YOKOE, M. Purification, characterization, and a potential application of beta-glucosidase from Aspergillus pulverulentus YM-80, Japanese Society of Applied Glycoscience, v.51, p.211-216, 2004. MATSUI, H.; BAN-TOKUDA, T. Studies on carboxymethyl cellulase and xylanase activities of anaerobic fungal isolate CR4 from the bovine rumen. Current Microbiology, v. 57, p.615-619, 2008. MAZOTTO, A. M. ; MELO, A. C. de ; MACRAE, A. ; ROSADO, A. S. ; PEIXOTO, R. ; CEDROLA, S. M. L. ; COURI, S. ; ZINGALI, R. B. ; VILLA, A. L. ; RABINOVITCH, L. ; CHAVES, J. Q. ; VERMELHO, A. B., Biodegradation of feather waste by extracellular keratinases and gelatinases from Bacillus spp., World Journal of Microbiology and Biotechnology. 2010. MILLER, G.L. Use of dinitrosalicylic reagent for determination of reducing sugar. Analytical Chemistry, v. 31, p. 426-428., 1959. MULDER, M. Basic Principles of Membrane Technology.2 Ed. Kluwer Academic Publishers, Netherlands, 564 p. 1996. MURGATROYD, K.; BUTLER, L. D.; KINNARNEY, K.; MONGER, P. Good pharmaceutical freeze-drying practice, Peter Cameron (ed.), 1997. NADEEM, M. T. Production, Purification And Characterization Of Carboxymethyl Cellulase For Food Applications, 2009, 204 f., thesis (PhD), University of Agriculture, Faisalabad, 2010. NELSON, D. L.; COX, M. M. Lenhinger: Principios de Bioqu?mica. 4 ed. S?o Paulo: Savier. 1119p, 2004. 67 NETO, J.A. Purifica??o de enzimas. In: URGEL, A. L.; AQUARONE, E.; BORZANI, V.; SCHMIDELL, W. Biotecnologia industrial, v. 3, S?o Paulo: Ed. Blucher, 2007. NOVO INDUSTRI S.A.(Dinamarca), Celulasedetermination: Division Enzymes, N. AF 149/5 GB,1978. PARK, S.Y.; BAE, E.A.; SUNG, J.H.; LEE, S.K.; KIM, D.H. Purification and characterization of ginsenoside Rb1-metabolizing beta-glucosidase from Fusobacterium K-60, a human intestinal anaerobic bacterium. Bioscience Biotechnology Biochemistry. v.65, p.1163-1169, 2001. PARRY, N. J.; D. E. BEEVER, D. E.; OWEN, E.; NERINCKX, W.; CLAEYSSENS, M.; BEEUMEN, J. V.; BHAT, M. K., Biochemical characterization and mode of action of a thermostable endoglucanase purified from Thermoascus aurantiacus. Archives of Biochemistry and Biophysics,v. 404, p. 243?253, 2002. PASTORE, G.M.; COSTA, V.S.; KOBLITZ, M.G.B. Purifica??o parcial de lipase extracelular produzida por nova cepa de Rhizopus sp. Ci?ncia e Tecnologia de Alimentos, v. 23, p. 135 -140, 2003. PAULO, A.M.C. Influ?ncia da Agita??o Mec?nica e da Composi??o Enzim?tica no Tratamento do Algod?o com Celulases. 1995. 75 f. Tese (Doutorado em Engenharia T?xtil) ? Escola de Engenharia, Universidade do Minho. Guimar?es, Portugal. 1995. PITOMBO, R.N.M. Liofiliza??o. In: PESSOA JR, A.P.; KILIKIAN, B.V. Purifica??o de produtos biotecnol?gicos. Barueri, SP: Manole, p. 332-348, 2005. QUEIROZ, J. A., TOMAZ, C. T., CABRAL, J. M. S. Hydrophobic interaction chromatography of proteins. Journal of Biotechnology, 87, p. 143-159, 2001. RAIMBAULT, M. General and microbiological aspects of solid substrate fermentation.Electronic Journal of Biotechnology, vol.1, n.3, pp. 26-27. 1998. RAJMOHAN, S.; DODD, C. E. R.; WAITES, W. M. Enzymes from isolates of Pseudomonas fluorescens involved in food spoilage. Journal of Applied Microbiology, v. 93, p. 205-213, 2002. ROBSON, L.M. & CHAMBLISS, G.H. Cellulases of bacterial origin.Enzyme and Microbial Technology. V.11, p. 626-644. 1989. RODRIGUES, G.A. Produ??o de ?-1,3-glucanase de Cellulosimicrobium cellulans 191 para lise enzim?tica da levedura Kluyveromyces marxianusvar.bulgaricus e obten??o de ?-galactosidase. 2008. Disserta??o (Mestrado em Engenharia de alimentos) - Faculdade de Engenharia de Alimentos, Universidade Estadual de Campinas, Campinas, SP, 2008. 68 ROLD?N, A.; PALACIOS, V.; PENATE, X.; BENITEZ, T.; PEREZ, L. Use of Trichoderma enzymatic extracts on vinification of Palomino fino grapes in the sherry region.Journal of Food Engineering, N. 75, p. 375?382. 2006. ROTTER, B.A. The future of crude enzyme supplements in pig nutrition. Pig News Informations, v.11, p.15-17, 1990. RUEGGER, M. J. S.; TAUK-TORNISIELO, S. M. Atividade da celulase de fungos isolados do solo da Esta??o Ecol?gica de Jur?ia-Itatins, S?o Paulo, Brasil. Revista Brasileira de Bot?nica, vol.27, n.2. S?o Paulo, 2004. SALOHEIMO, M; NAKARI-SET?L?, T; TENKANEN, M; PENTTIL?, M., cDNA cloning of a Trichoderma reesei cellulase and demonstration of endoglucanase activity by expression in yeast, European Journal of Biochemistry, v.249, p.584-591, 1997. SANT?ANNA Jr., G. L. Produ??o de enzimas microbianas. In: LIMA, U. A.; AQUARONE, E.; BORZANI,W.; SCHMIDELL, W. Biotecnologia Industrial: Processos Fermentativos e Enzim?ticos. EditoraEdgard Bl?cher Ltda: S?o Paulo, Brasil, p. 351-362, 2001. SANTOS, E. S. Recupera??o e purifica??o de enzimas usando adsor??o em leito expandido. Campinas, 2001, 152 f. Tese (Doutorado) - Universidade Estadual de Campinas - UNICAMP. 2001. SEIDLE, H.F.; MARTEN, I.; SHOSEYOV, O.; HUBER, R.E. Physical and kinetic properties of the family 3 beta-glucosidase from Aspergillus niger which is important for cellulose breakdown, Protein Journal, v.23, p.11-23, 2004. SEIDLE, H.F.; ALLISON, S.J.; GEORGE, E.; HUBER, R.E.; Trp-49 of the family 3 beta-glucosidase from Aspergillus niger is important for its transglucosidic activity: creation of novel beta-glucosidases with low transglucosidic efficiencies, Archives of Biochemistry and Biophysics. v.455, p.110-118, 2006. SHULER, M. L.; KARGI, F. Bioprocess Engineering ? Basic Concepts.Prentice Hall Int. Series in the Physical and Chemical Engineering Sciences.New Jersey, 1992. SIGMA. Cat?logo Bioqu?micos e Reagentes para Pesquisa em ci?ncias da Vida. Brasil. 2002. SILVA, E. G.,; BOERGES, M. de F.; MEDINA, C.; PICCOLI, R. H.; SCHWAN, R. F., Pectinolytic enzymes secreted by yeasts from tropical fruits. FEMS Yeast Research, v.5, n.9, p.859-865, 2005. SLIVINSKI, C.T. Produ??o, purifica??o parcial e caracteriza??o bioqu?mica de glucoamilase de Aspegillus niger obtida por fermenta??o por fermenta??o em estado s?lido. 2007. Disserta??o (Mestrado ci?ncia e Tecnologia de Alimentos) ? Universidade estadual de ponta Grossa, Ponta Grossa, PR, 2007. 69 SUKUMARAN, R. K.; SINGHANIA, R. R.; MATHEW, G. M.; PANDEY, A.Cellulase production using biomass feed stock and its application in lignocelluloses saccharification for bio-ethanol production. Renewable Energy. v. 34, p. 421-424. 2009. SZCZODRAK, J., FIEDUREK, J. Technology for conversion of lignocellulosic biomass to ethanol.Biomass and Bioenergy, v. 10, p. 367-375, 1996. SZENGYEL, Z. Ethanol from wood: Cellulase enzyme production. 2000. 61 f. Tese (Doutorado. em Engenharia Qu?mica), Lund University, Su?cia, 2000. TATINI JUNIOR, V.; PARRA, D.F.; PITOMBO, R.N.M. Influ?ncia da taxa de congelamento no comportamento f?sico-qu?mico e estrutural durante a liofiliza??o da albumina bovina. Brazilian Journal of Pharmaceutical Sciences, v.42, n.1, p.127-136. 2006. THONGEKKAEW, J., IKEDA, H., MASAKI, K., IEFUJI, H. An acidic and thermostable carboxymethyl cellulase from the yeast Cryptococcus sp. S-2: Purification, characterization and improvement of its recombinant enzyme production by high cell-density fermentation of Pichia pastoris. Protein Expression and Purification. v. 60, p. 140- 146, 2008. TOLAN, J.S.; FODDY, B. Cellulase from submerged fermentation.Advances in Biochemical Engineering / Biotechnology. v. 65, p. 41-67. 1999. TOLEDO, A. L. et al. Purifcation by expanded bed adsorption and characterization of an?-amylases FORILASE NTL? from A. niger. Journal of Chromatography B, v. 846, n. 1, p. 51-56, 2007. VALENTE, S.S.; SANTIAGO, G.S., FERREIRA, W.M.; DIAS, J.C.C.A. Desempenho de coelhos em crescimento recebendo dietas com suplementa??o enzim?tica. Arquivo brasileiro de medicina veterin?ria e zootecnia, vol.52, n.2, 2000. WANG, W. Lyophilization and development of solid protein pharmaceuticals. International Journal of Pharmaceutics, v.203, p.1-60, 2000. WOOD, T.M.; GARCIA-CAMPAYO, V. Enzimology of cellulose degradation. Biodegradation, v. 1, p. 147-161. Dordrecht, 1990. ZHANG, P.; HIMMEL, M. E.; MIELENZ, J. R. Outlook for cellulase improvement: Screening and selection strategies. Biotechnology Advances. v. 24, p. 452-481, 2006. ZHANG, P.; LYND, R. L. Toward an Aggregated Understanding of Enzymatic Hydrolysis of Cellulose: Noncomplexed Cellulase Systems. Biotechnology and Bioengineering. v. 88, n. 7, p. 797-824. 2004. ZU?IGA, U. F. R.; FARINAS, C. S.; GON?ALVES, F. M. N.; NETO, V. B.; COURI, S.; CRESTANA, S. Influ?ncia do Meio Nutricional na Produ??o de Celulases em Fermenta??o Semi-S?lida do Baga?o de Cana-de-A??car por Aspergillus niger In: XVII Simp?sio Nacional de Bioprocessos. Anais, Natal, RN, 2009.

Page generated in 0.0063 seconds