fevereiro 2015 vol. 1 num. 2 - XX Congresso Brasileiro de Engenharia Química

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COLLAGENASE PRODUCTION BY YEAST (13II) ISOLATED FROM BEE POLLEN (Melípona spp.)

LUIZ, A. C.; ARRUDA, A. A.; MOREIRA, K. A.; MARQUES, D. A. Viana; PORTO, A. L. F.; LIMA, C. A.;

Artigo:

Collagenases are enzymes with various important industrial and biotechnological applications. To be economically feasible, collagenase production should have high yields and use an inexpensive medium. The aim of this work was to study the influence of substrate concentration, pH and orbital agitation speed on collagenase production by yeast (13II) isolated from bee pollen (Melípona spp.) using a 2

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DOI: 10.5151/chemeng-cobeq2014-0132-26885-171626

Referências bibliográficas
  • [1] BENITO, M.J.; RODRIGUEZ, M.; NUNEZ, F; ASENSIO, M.A.; BERMUDEZ, M.E. Purification and characterization of an extracellular protease from Penicillium chrysogenum active against meat protein. Appl Environ Microbiol. v. 68, p. 3532–3536, 2002.
  • [2] CHAVIRA. R.J.; BURNETT. T.J.; HAGEMAN. J.H. Assaying proteinases with azocoll. Anal Biochem. v. 136. p. 4446–4450, 1984.
  • [3] Área temática: Processos Biotecnológicos 6CHI, Z.; MA, C.; WANG, P.; LI, H. F. Optimization ofmediumand cultivation conditions for alkaline protease production by the marine yeast Aureobasidium pullulans. Bioresource Technol., v. 98, p. 534–538, 2007.
  • [4] HADDAR, A.; FAKHFAKH-ZOUARI, N.; HMIDET, N.; FRIKHA, F.; NASRI, M.; KAMOUN, A.S. Low-cost fermentation medium for alkaline protease production by Bacillus mojavensis A21 using hulled grain of wheat and sardinella peptone. J Biosci Bioeng.v. 110, p. 288–294, 2010.
  • [5] HAMDY, H.S. Extracellular collagenase from Rhizoctonia solani: production. purification and characterization. Ind J Biotechnol. v. 7, p. 333–340, 2008.
  • [6] JORDAN, G.H. The use of intralesional clostridial collagenase injection therapy for Peyronie’s disease: a prospective. singlecenter. non-placebo-controlled study. J Sex Med. v. 5, p. 180–187, 2008.
  • [7] KANTH, S.V.; VENBA, R.; MADHAN, B.; CHANDRABABU, N.K.; SADULLA, S. Studies on the influence of bacterial collagenase in leather dyeing. Dyes Pigments. v. 76, p. 338–347, 2008.
  • [8] KIM, M.; HAMILTON, S.E;. GUDDAT, L.W.; OVERALL, C.M. Plant collagenase: unique collagenolytic activity of cysteine proteases from ginger. Biochim Biophys Acta. v. 1770, p.1627–1635, 2007.
  • [9] KUMAR, C. G.; TAGAKI, H. Microbial alkaline protease: from bioindustrial view point. Biotechnol. Adv., v. 17, p. 561–594, 199
  • [10] LIMA, C. A.; RODRIGUES, P. M. B.; PORTO, T. S.; VIANA, D. A.; LIMA FILHO, J. L.; PORTO, A. L. F.; CARNEIRO DA CUNHA, M. G. Production of a collagenase from Candida albicans URM3622. Biochem. Eng. J., v. 43, p. 315-320, 2009.
  • [11] NICKERSON. W.J.; MOHAN. R.R. Studies on the nutrition and metabolism of Streptomyces. In: Symposium on Actinomycetales. International Comgress of Microbiology. 6º Congress. Roma. p. 137-146, 1953.
  • [12] PATEL, R.; DODIA, M.; SINGH, S.P. Extracellular alkaline protease from a newly isolated haloalkaliphilic Bacillus sp.: production and optimization. Process Biochem. v. 40, p. 3569–3575, 2005.
  • [13] POTUMARTHI, R.; CH S.; JETTY, A. Alkaline protease production by submerged fermentation in stirred tank using Bacillus licheniformis NCIM-2042: effect of aeration and agitation regimes, Biochem. Eng. J. v. 34, p. 185–192, 2007.
  • [14] REDDY, L.V.A.; WEE, Y.J.; YUN, J.S.; RYU, H.W. Optimization of alkaline protease production by batch culture of Bacillus sp. RKY3 through Plackett–Burman and response surface methodological approaches. Bioresource Technol. v. 99, p. 2242–2249, 2008.
  • [15] Área temática: Processos Biotecnológicos 7SEGEV, A.; NILI, N.; QIANG, B.; CHARRON, T.; BUTANY, J.; STRAUSS, B.H. Human-grade purified collagenase for the treatment of experimental arterial chronic total occlusion. Cardiovasc Revasc Med. v. 6, p. 65-69, 2005.
  • [16] SMITH. P.K.; KROHN. R.I.; HERMANSON. G.T.; MALLIA. A.K.; GARDENER. F.H.; PREVENANO. M.D..; FUJIMOTO. C.K.; GOEKE. N.M.; OLSON. B.J.; KLENK. D.C. Measurement of protein using bicinchoninic acid. Anal Biochem.. v. 150, p. 76–85, 1985.
  • [17] SUHOSYROVA, E.A.; NIKITINA, Z.K.; YAKOVLEVA, M.B.; VESHCHIKOVA, E.V.; BYKOV, V.A. Characterstics of collagenolytic enzymes secreted by Deuteromycete Fungi Aspergillus Flavus. Immunol Microbiol. v. 125, p. 447–451, 2003.
  • [18] TAMAI, E.; MIYATA, S.; TANAKA, H.; NARIYA, H.; SUZUKI, M.; MATSUSHITA, O.; HATANO, N.; OKABE, A. High-level expression of his-tagged clostridial collagenase in Clostridium perfringens. Appl Microbiol Biotechnol. v. 80, p. 627–635, 2008.
  • [19] TANDER, B.; BICAKCI, U.; KILICOGLU-AYDIN, B.; ARITURK, E.; RIZALAR, R.; BERNAY, F. Antiadhesive effects of mitomycin C and streptopeptidase A in rats with intraperitoneal adhesions. Pediatr Surg Int. v. 23, p. 785–788, 2007.
  • [20] WU, Q.; LI, C.; LI, C.; CHEN, H.; SHULIANG, L. Purification and characterization of a novel collagenase from Bacillus pumilus Col-J. Appl Biochem Biotechnol. v. 160, p. 129–139, 2010.
Como citar:

LUIZ, A. C.; ARRUDA, A. A.; MOREIRA, K. A.; MARQUES, D. A. Viana; PORTO, A. L. F.; LIMA, C. A.; "COLLAGENASE PRODUCTION BY YEAST (13II) ISOLATED FROM BEE POLLEN (Melípona spp.)", p. 173-180 . In: Anais do XX Congresso Brasileiro de Engenharia Química - COBEQ 2014 [= Blucher Chemical Engineering Proceedings, v.1, n.2]. São Paulo: Blucher, 2015.
ISSN 2359-1757, DOI 10.5151/chemeng-cobeq2014-0132-26885-171626

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