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2011 | 65 |

Tytuł artykułu

Enzymatic activity of actinomycetes from the genus Streptomyces isolated from the bulk soil and rhizosphere of the Pinus sylvestris

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EN

Abstrakty

EN
The enzymatic activity (chitinolytic, proteolytic, pectolytic andcellulolytic) of twenty strains of Streptomyces isolated from soil and rhizosphere of Scots pine was analyzed. Most strains produced chitinases, catalyzing the degradation of chitin, the main component of fungal cell walls including fungi pathogenic for plants. This activity was about 4 times higher in the presence of Fusariumoxysporum than Rhizoctonia solani mycelium or chitin flakes. The number of the proteolytic strains was also significant. In general, rhizosphere and soil organisms synthesizedcomparable amounts of these enzymes. Over half of the analyzed Streptomyces strains produced pectolytic enzymes (polygalacturonase, pectin lyase and pectate lyase). This property was more common among rhizosphere than among soil strains. The Streptomyces strains also showedcellulolytic activity (endocellulases, exocellulases) – enzymes decomposing basic components of cell walls of plant and lower fungi (cellulose). The cellulolytic activity was differentiated and depended on the Streptomyces strain. Conclusion of our studies is that Streptomyces are the microorganisms more chitinolytic andproteolytic than pectolytic and cellulolytic.

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Tom

65

Opis fizyczny

p.37-46,fig.,ref.

Twórcy

autor
  • Department of Microbiology, Institute of General and Molecular Biology, Nicolaus Copernicus University, Gagarina 9, 87-100 Torun, Poland
autor

Bibliografia

  • Beg Q.K., Bhushan B., Kapoor M., Honda G.S. 2000. Production and characterization of thermostable xylanase andpectinase from Streptomyces sp. QG-11-3. Journal of Industrial Microbiology and Biotechnology 24: 396–402.
  • Berg B., Pettersson G. 1977. Location andformation of cellulases in Trichoderma viride. Journal of Applied Bacteriology 42: 65–75.
  • Bhat M.K., Bhat S. 1997. Cellulose degrading enzymes and their potential industrial applications. Biotechnology Advances 15: 583–620.
  • Cai Y.J., Chapman S.J., Buswell J.A., Chang S.–T. 1999. Production and distribution of endoglucanase, cellobiohydrolase and -glucosidase components of the cellulolytic system of Volvariella volvacea, the edible straw mushroom. Applied and Environmental Microbiology 65: 553–559.
  • Chen J.P., Lee M.S. 1994. Simultaneous production and partition of chitinase during growth of Serratia marcescens in an aqueous two-phase system. Biotechnology Techniques 8: 783–788.
  • Criquet S. 2002. Measurement andcharacterization of cellulase activity in sclerophyllous forest litter. Journal of Microbiological Methods 50: 165–173.
  • Dahm H., Strzelczyk E. 1995. Impact of vitamins on cellulolytic, pectolytic andproteolytic activity of mycorrhizal fungi. Symbiosis 18: 233–250.
  • Dahm H., Strzelczyk E., Majewska L. 1987. Cellulolytic and pectolytic activity of mycorrhizal fungi, bacteria andactinomycetes associatedwith the roots of Pinus sylvestris. Pedobiologia 30: 73–80.
  • Dahm H., Strzelczyk E., Mańka M. 1997. Production of cellulolytic andpectolytic enzymes by Fusarium oxysporum (Schlecht.), Rhizoctonia solani (Kühn) and Trichoderma viride (Pers. ex Gray). Phytopathologia Polonica 13: 19–30.
  • Deng S.P., Tabatabai M.A. 1994. Cellulase activity of soils. Soil Biology andBiochemistry 26: 1347–1354.
  • El-Dein A., Hosny M.S., El-Shayeb N.A., AboodA., Abdel-Fattah A.M. 2010. A potent chitinolytic activity of marine Actinomycete sp. andenzymatic production of chitooligosaccharides. Australian Journal of Basic andAppliedSciences 4: 615–623.
  • Favela-Torres E., Volke-Sepúlveda T., Viniegra-González G. 2006. Production of hydrolytic depolymerising pectinases. Food Technology and Biotechnology 44: 221–227.
  • Gierasimiuk J., Strzelczyk E. 2003. Cellulolytic and pectolytic activity of bacilli isolatedfrom the root-free soil andthe rhizosphere of different forest trees. Folia Forestalia Polonica 45: 15–26.
  • Gołębiowska I. 1975. Mikrobiologia rolnicza. Warszawa: PWRiL
  • Grigorevski-Lima A.L., Pires do Nascimento R., Pinto da Silva Bon E., Coelho R.R.R. 2005. Streptomyces drozdowiczii cellulase production using agro-industrial by-products and its potential use in the detergent and textile industries. Enzyme and Microbial Technology 37: 272–277. doi:10.1016/j.enzmictec.2005.03.016
  • Gupta R., Saxena R.K., Chaturvedi P., Virdi J.S. 1995. Chitinase production by Streptomyces virdificans: its potential in fungal cell walls lysis. Journal of Applied Bacteriology 78: 378–383.
  • Hazen G.G., Hause J.A., Hubicki J.A. 1965. An automatedsystem for the quantitative determination of proteolytic enzymes using azocasein. Annals of the New York Academy of Sciences 130: 761–768.
  • Hopwood D.A. 2007. Streptomyces in nature and medicine. The antibiotic makers. New York: Oxford University Press.
  • Januszek K. 1999. Aktywność enzymatyczna wybranych gleb leśnych Polski południowej w świetle badań polowych i laboratoryjnych. Zeszyty Naukowe AR. Kraków.
  • Jennings D.H., Lysek G. 1996. Fungal Biology: understanding the fungal lifestyle. London: Bios Scientific Publishers.
  • Johansson M. 1988. Pectic enzyme activity of spruce and pine strains of Heterobasidion annosum (Fr.). Bref. Physiological andMolecular Plant Pathology 33: 333–349.
  • Johnson L.F., Curl E.A., BondJ.H., Fribourg H.A. 1960. Methods for studying soil microflora – plant disease relationship. Minneapolis: Burgess Publishing Company.
  • Joo G.J. 2005. Production of an anti-fungal substance for biological control of Phytophthora capsici causing phytophthora blight in red-peppers by Streptomyces halstedii. Biotechnology Letters 27: 201–205.
  • Kumar C.G., Takagi H. 1999. Microbial alkaline proteases: from a bioindustrial viewpoint. Biotechnology Advances 17: 561–594.
  • Kutzner H.J. 1981. The Family Streptomycetaceae, [In]: The Prokaryotes. A Handbook on Habitats Isolation and Identyfication of Bacteria (Eds. Starr M. P., Stolp H., Trüper H. G., Balows A., Schlegel H. G.). Springer-Verlag, 2028–2090.
  • Mahadevan B., Crawford D.L. 1997. Properties of the chitinase of the antifungal biocontrol agent Streptomyces lydicus WYEC108. Enzyme and Microbial Technology 20: 489–493.
  • Manucharova N.A., Belova E.V., Polyanskaya L.M., Zenova G.M. 2004. A chitinolytic Actinomycete complex in chernozem soil. Microbiology 73: 56–59.
  • Mehta V.J., Thumar J.T., Singh S.P. 2006. Production of alkaline protease from an alkaliphilic actinomycete. Bioresource Technology 97: 1650–1654.
  • Miller G.L. 1959. Use of dinitrosalicylic acid reagent for the determination of reducing sugar. Analytical Chemistry 31: 426–428.
  • Miyashita K., Fujii T., Sawada Y. 1991. Molecular cloning andexpression of a Streptomyces lividans 66. Journal of General Microbiology 137: 2065–2072.
  • Nascimento R.P., d’ Avila-Levy C.M., Souza R.F., Branquinha M.H., Bon E.P.S., Pereira-Jr N., Coelho R.R.R. 2005. Production and partial characterization of extracellular proteinases from Streptomyces malaysiensis, isolatedfrom a Brazilian cerrado soil. Archives of Microbiology 184: 194–198.
  • Nawani N.N., Kapadnis B.P. 2004. Production dynamics and characterization of chitinolytic system of Streptomyces sp. NK1057, a well equipped chitin degrader. World Journal of Microbiology and Biotechnology 20: 487–494.
  • Pérez-Pons J.A., Rebordosa X., Querol E. 1995. Induction and preliminary characterization of intracellular -glucosidases from a cellulolytic Streptomyces strain. FEMS Microbiology Letters 128: 235–239.
  • Redlak K., Dahm H., Ciesielska A., Strzelczyk E. 2001. Enzymatic activity of ectendomycorrhizal fungi. Biology and Fertility of Soils 33: 83–90.
  • Robbins P.W., Albright C., BenfieldB. 1988. Cloning and expression of a Streptomyces plicatus chitinase (chitinase-63) in Escherichia coli. The Journal of Biological Chemistry 263: 443– 447.
  • Rodziewicz A., Sobieszczański J. 1988. Pozakomórkowe proteinazy drobnoustrojów. Postępy Mikrobiologii 27: 55–73.
  • Shirling E.B., Gottlieb D. 1966. Methods for characterization of Streptomyces species. International Journal of Systematic Bacteriology 16: 313–340.
  • Strzelczyk E., Gorlach K., Różycki H. 1990. Chitinolytic and proteolytic activity of Streptomycetes isolated from root-free soil, rhizosphere and mycorrhizosphere of pine (Pinus sylvestris L.). Biology and Fertility of Soils 9: 268–272.
  • Strzelczyk E., Szpotański T. 1989. Cellulolytic and pectolytic activity of Streptomycetes isolated from root-free soil, rhizosphere and mycorrhizosphere of pine (Pinus sylvestris L.). Biology and Ferility of Soils 7: 365–369.
  • Trejo-Estrada S.R., Paszczyński A., Crawford D.L. 1998. Antibiotics andenzymes producedby the biocontrol agent Streptomyces violaceusniger YCED-9. Journal of Industrial Microbiology and Biotechnology 21: 81–90.
  • Wachinger G., Bronnenmeier K., Staudenbauer W.L., Schrempf H. 1989. Identification of mycelium-associated cellulose from Streptomyces reticuli. Applied and Environmental Microbiology 55: 2653–2657.
  • Williams S.T., Goodfellow M., Alderson G., Wellington E.M.H., Sneath P.H.A., Sackin M.J. 1983. Numerical classification of Streptomyces andrelated genera. Journal of General Microbiology 129: 1743–1813.

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Bibliografia

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