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Biochemical Characterization of Lipases Obtained from <i>Acinetobacter psychrotolerans</i> Strains

Year 2018, Volume: 22 Issue: 1, 7 - 12, 16.04.2018

Abstract

In this study, extracellular lipases obtained from Acinetobacter psychrotolerans strains (Xg1 and Xg2) were characterized. The effects of varying pH values (3.0-10.0) and various temperatures (10-90 °C) on lipase activities were examined. Also the effects of different metal ions, organic solvents and detergents on lipases were studied. The extracellular crude lipases were concentrated using ultrafiltration. Zymogram analysis of these lipases was performed. Lipases exhibited maximum activity at pH 8 and 30 °C.  While lipase obtained from the Xg1 strain exhibited the highest stability in the presence of various organic solvents, including hexane, ethyl acetate, chloroform and N,N dietil formamide, lipase obtained from the Xg2 strain was sensitive in the presence of isopropanol, acetonitrile, and butan-1-ol. The lipases of the Xg1 and Xg2 strains were inhibited in the presence of Cu2+ and Zn2+. Also, the lipase of the Xg1 strain was inhibited in the presence of Fe3+. In the presence of EDTA, the lipase activities of the Xg1 and Xg2 strains were partially inhibited. In presence of SDS, they were exactly inhibited. According to the zymogram results, the molecular weights of the lipases obtained from the Acinetobacter psychrotolerans Xg1 and Xg2 strains have been found approximately 37 and 30 kDa, respectively.

References

  • [1] Thakur, S. 2012. Lipases, its sources, properties and applications: A review. International Journal of Scientific and Engineering Research, 3(7), 1-29.
  • [2] Gupta, R., Gupta, N., Rathi, P. 2004. Bacterial lipases: An overview of production, purification and biochemical properties. Applied Microbiology and Biotechnology, 64(6), 763-781.
  • [3] Rubin, B., Dennis, E.A. 1997. Lipases: Part A. Biotechnology Methods Enzymology (Vol. 284). Academic Press, New York, 1-408p.
  • [4] Rubin, B., Dennis, E.A. 1997. Lipases: Part B. Enzyme characterization and utilization (Vol. 286). Academic Press, New York, 1-563p.
  • [5] Kazlauskas, R.J., Bornscheuer, U.T. 1998. Biotransformations with lipases. In: Rehm, H.J., Pihler, G., Stadler, A., Kelly, P.J.W. (Eds.), Biotechnology, (Vol. 8), VCH, New York, 37-192 p.
  • [6] Kamini, N.R., Fujii, T., Kurosu, T., Iefuji, H. 2000. Production, purification and characterization of an extracellular lipase from yeast, Cryptococcus sp. S-2. Process Biochemistry, 36(4), 317-324.
  • [7] Ruchi, G., Anshu, G., Khare, S.K. 2008. Lipase from solvent tolerant Pseudomonas aeruginosa strain: Production optimization by response surface methodology and application. Bioresource Technology, 99(11), 4796-4802.
  • [8] Shariff, F.M., Leow, T.C., Mukred, A.D., Salleh, A.B., Basri, M., Rahman, R.N.Z.R.A. Production of L2 lipase by Bacillus sp. strain L2: Nutritional and physical factors. Journal of Microbiology and Biotechnology, 47(5)(2007), 406-412.
  • [9] Breuil, C., Kushner, D.J. 1975. Partial purification and characterization of the lipase of a facultatively psychrophilic bacterium (Acinetobacter 016). Canadian Journal of Microbiology, 21(4), 434-441.
  • [10] Kok, R.G., van Thor, J.J., Nugteron-Roodzant, I.M., Brouwer, M.B.W., Egmond, M.R., Nudel, C.B., Vosman, B., Hellingwerf, K.J. 1995. Characterization of the extracellular lipase, LipA, of Acinetobacter calcoaceticus BD413 and sequence analysis of the cloned structural gene. Molecular Microbiology, 15(5), 803-818.
  • [11] Kasana, R.C., Kaur, B., Yadav, S.K. 2008. Isolation and identification of a psychrotrophic Acinetobacter sp. CR9 and characterization of its alkaline lipase. Journal of Basic Microbiology, 48(3), 207-212.
  • [12] Kati, A., Kati, H. 2013. Isolation and identification of bacteria from Xylosandrus germanus (Blandford) (Coleoptera: Curculionidae). African Journal of Microbiology Research, 7(47), 5288-5299.
  • [13] Kugiyama, W., Otani, Y., Hashimoto, Y., Tagagi, Y. 1986. Molecular cloning and nucleotide sequence of lipase gene from Pseudomonas fragi. Biochemical and Biophysical Research Communications, 141(1), 185-190.
  • [14] Smibert, R.M., Krieg, N.R. 1981. General characterization. In: Gerhardt, P., Murray, R.G.E., Costilow, R.N., Neste,r E.W., Wood, W.A., Krieg, N.R., Phillips, G.B. (Eds.), Manual of methods for general bacteriology, American Society for Microbiology, Washington, D.C., 409-43p.
  • [15] Kouker, G., Jaeger, K.E. 1987. Specific and sensitive plate assay for bacterial lipase. Applied Microbiology and Biotechnology, 53(1), 211-213.
  • [16] Winkler, U.K., Stuckmann, M. 1979. Glycogen, hyaluronate, and some other polysaccharides greatly enhance the formation of exolipase by Serratia marcescens. Journal of Bacteriology, 138(3), 663-670.
  • [17] Laemmli, U.K. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature, 227(5259), 680-685.
  • [18] Wang, H.K., Shao, J., Wei, Y.J., Zhang, J., Qi, W. 2011. A Novel Low-Temperature Alkaline Lipase from Acinetobacter johnsonii LP28 Suitable for Detergent Formulation. Food Technology and Biotechnology, 49(1), 96-102.
  • [19] Lee, K.W., Bae, H.A., Shin, G.S., Lee, Y.H. 2006. Purification and catalytic properties of novel enantioselective lipase from Acinetobacter sp. ES-1 for hydrolysis of (S)-ketoprofen ethyl ester. Enzyme and Microbial Technology, 38(3), 443-448.
  • [20] Saisubramanian, N., Sivasubramanian, S., Nandakumar, N., Indirakumar, B., Chaudhary, N.A., Puvanakrishnan, R. 2008. Two step purification of Acinetobacter sp. lipase and its evaluation as a detergent additive at low temperatures. Applied Biochemistry and Biotechnology, 150(2), 139-156.
  • [21] Uttatree, S., Winayanuwattikun, P., Charoenpanich, J. 2010. Isolation and Characterization of a Novel Thermophilic-Organic Solvent Stable Lipase from Acinetobacter baylyi. Applied Biochemistry and Biotechnology, 162(5), 1362-1376.
  • [22] Hun, C.J., Rahman, R.N.Z.A., Salleh, A.B., Basri, M. 2003. A newly isolated organic solvent tolerant Bacillus sphaericus 205y producing organic solvent-stable lipase. Biochemical Engineering Journal, 15(2), 147-151.
  • [23] Wang, H., Zhong, S., Ma, H., Zhang, J., Qi, W. 2012. Screening and characterization of a novel alkaline lipase from Acinetobacter calcoaceticus 1–7 Isolated from bohai bay in china for detergent formulation. Brazilian Journal of Microbiology, 43(1), 148-56.
  • [24] Cherif, S., Mnif, S., Hadrich, F., Abdelkafi, S., Sayadi, S. 2011. Newly high alkaline lipase: an ideal choice for application in detergent formulations. Lipids in Health and Disease, 10(221),1-8.
  • [25] Yoon, M.Y., Shin, P.K., Han, Y.S., Lee, S.H., Park, J.K., Cheong, C.S. 2004. Isolation of an Acinetobacter junii SY-01 strain producing an extracellular lipase enantioselectively hydrolyzing itraconazole precursor and some properties of the lipase. Journal of Microbiology and Biotechnology, 14(1), 97-104.
  • [26] Son, S.H., Park, K.R. 2004. Purification and characterization of the lipase from Acinetobacter sp. B2 isolated from oil-contaminated soil. Korean Journal of Microbiology, 40(4), 320-327.
  • [27] Pratuangdejkul, J., Dharmsthiti, S. 2000. Purification and characterization of lipase from psychrophilic Acinetobacter calcoaceticus LP009. Microbiology Research,155(2), 95-100.
  • [28] Hong, M.C., Chang, M.C. 1998. Purification and characterization of an alkaline lipase from a newly isolated Acinetobacter radioresistens CMC-1, Biotechnology Letters, 20(11), 1027-1029.
  • [29] Mitsuhashi, K., Yamashita, M., Hwan, Y.S., Ihara, F., Nihira, T., Yamada, Y. 1999. Purification and characterization of a novel extracellular lipase catalyzing hydrolysis of oleyl benzoate from Acinetobacter nov sp. strain KM109. Bioscience, Biotechnology, and Biochemistry, 63(11), 1959-1964.
  • [30] Ng, I.S., Tsai, S.W., Chen, S.J. 1999. Purification and characterization of extracellular lipase from Acinetobacter radioresistens CMC-2. Journal of the Chinese Institute of Chemical Engineers, 30(5), 355-362.
Year 2018, Volume: 22 Issue: 1, 7 - 12, 16.04.2018

Abstract

References

  • [1] Thakur, S. 2012. Lipases, its sources, properties and applications: A review. International Journal of Scientific and Engineering Research, 3(7), 1-29.
  • [2] Gupta, R., Gupta, N., Rathi, P. 2004. Bacterial lipases: An overview of production, purification and biochemical properties. Applied Microbiology and Biotechnology, 64(6), 763-781.
  • [3] Rubin, B., Dennis, E.A. 1997. Lipases: Part A. Biotechnology Methods Enzymology (Vol. 284). Academic Press, New York, 1-408p.
  • [4] Rubin, B., Dennis, E.A. 1997. Lipases: Part B. Enzyme characterization and utilization (Vol. 286). Academic Press, New York, 1-563p.
  • [5] Kazlauskas, R.J., Bornscheuer, U.T. 1998. Biotransformations with lipases. In: Rehm, H.J., Pihler, G., Stadler, A., Kelly, P.J.W. (Eds.), Biotechnology, (Vol. 8), VCH, New York, 37-192 p.
  • [6] Kamini, N.R., Fujii, T., Kurosu, T., Iefuji, H. 2000. Production, purification and characterization of an extracellular lipase from yeast, Cryptococcus sp. S-2. Process Biochemistry, 36(4), 317-324.
  • [7] Ruchi, G., Anshu, G., Khare, S.K. 2008. Lipase from solvent tolerant Pseudomonas aeruginosa strain: Production optimization by response surface methodology and application. Bioresource Technology, 99(11), 4796-4802.
  • [8] Shariff, F.M., Leow, T.C., Mukred, A.D., Salleh, A.B., Basri, M., Rahman, R.N.Z.R.A. Production of L2 lipase by Bacillus sp. strain L2: Nutritional and physical factors. Journal of Microbiology and Biotechnology, 47(5)(2007), 406-412.
  • [9] Breuil, C., Kushner, D.J. 1975. Partial purification and characterization of the lipase of a facultatively psychrophilic bacterium (Acinetobacter 016). Canadian Journal of Microbiology, 21(4), 434-441.
  • [10] Kok, R.G., van Thor, J.J., Nugteron-Roodzant, I.M., Brouwer, M.B.W., Egmond, M.R., Nudel, C.B., Vosman, B., Hellingwerf, K.J. 1995. Characterization of the extracellular lipase, LipA, of Acinetobacter calcoaceticus BD413 and sequence analysis of the cloned structural gene. Molecular Microbiology, 15(5), 803-818.
  • [11] Kasana, R.C., Kaur, B., Yadav, S.K. 2008. Isolation and identification of a psychrotrophic Acinetobacter sp. CR9 and characterization of its alkaline lipase. Journal of Basic Microbiology, 48(3), 207-212.
  • [12] Kati, A., Kati, H. 2013. Isolation and identification of bacteria from Xylosandrus germanus (Blandford) (Coleoptera: Curculionidae). African Journal of Microbiology Research, 7(47), 5288-5299.
  • [13] Kugiyama, W., Otani, Y., Hashimoto, Y., Tagagi, Y. 1986. Molecular cloning and nucleotide sequence of lipase gene from Pseudomonas fragi. Biochemical and Biophysical Research Communications, 141(1), 185-190.
  • [14] Smibert, R.M., Krieg, N.R. 1981. General characterization. In: Gerhardt, P., Murray, R.G.E., Costilow, R.N., Neste,r E.W., Wood, W.A., Krieg, N.R., Phillips, G.B. (Eds.), Manual of methods for general bacteriology, American Society for Microbiology, Washington, D.C., 409-43p.
  • [15] Kouker, G., Jaeger, K.E. 1987. Specific and sensitive plate assay for bacterial lipase. Applied Microbiology and Biotechnology, 53(1), 211-213.
  • [16] Winkler, U.K., Stuckmann, M. 1979. Glycogen, hyaluronate, and some other polysaccharides greatly enhance the formation of exolipase by Serratia marcescens. Journal of Bacteriology, 138(3), 663-670.
  • [17] Laemmli, U.K. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature, 227(5259), 680-685.
  • [18] Wang, H.K., Shao, J., Wei, Y.J., Zhang, J., Qi, W. 2011. A Novel Low-Temperature Alkaline Lipase from Acinetobacter johnsonii LP28 Suitable for Detergent Formulation. Food Technology and Biotechnology, 49(1), 96-102.
  • [19] Lee, K.W., Bae, H.A., Shin, G.S., Lee, Y.H. 2006. Purification and catalytic properties of novel enantioselective lipase from Acinetobacter sp. ES-1 for hydrolysis of (S)-ketoprofen ethyl ester. Enzyme and Microbial Technology, 38(3), 443-448.
  • [20] Saisubramanian, N., Sivasubramanian, S., Nandakumar, N., Indirakumar, B., Chaudhary, N.A., Puvanakrishnan, R. 2008. Two step purification of Acinetobacter sp. lipase and its evaluation as a detergent additive at low temperatures. Applied Biochemistry and Biotechnology, 150(2), 139-156.
  • [21] Uttatree, S., Winayanuwattikun, P., Charoenpanich, J. 2010. Isolation and Characterization of a Novel Thermophilic-Organic Solvent Stable Lipase from Acinetobacter baylyi. Applied Biochemistry and Biotechnology, 162(5), 1362-1376.
  • [22] Hun, C.J., Rahman, R.N.Z.A., Salleh, A.B., Basri, M. 2003. A newly isolated organic solvent tolerant Bacillus sphaericus 205y producing organic solvent-stable lipase. Biochemical Engineering Journal, 15(2), 147-151.
  • [23] Wang, H., Zhong, S., Ma, H., Zhang, J., Qi, W. 2012. Screening and characterization of a novel alkaline lipase from Acinetobacter calcoaceticus 1–7 Isolated from bohai bay in china for detergent formulation. Brazilian Journal of Microbiology, 43(1), 148-56.
  • [24] Cherif, S., Mnif, S., Hadrich, F., Abdelkafi, S., Sayadi, S. 2011. Newly high alkaline lipase: an ideal choice for application in detergent formulations. Lipids in Health and Disease, 10(221),1-8.
  • [25] Yoon, M.Y., Shin, P.K., Han, Y.S., Lee, S.H., Park, J.K., Cheong, C.S. 2004. Isolation of an Acinetobacter junii SY-01 strain producing an extracellular lipase enantioselectively hydrolyzing itraconazole precursor and some properties of the lipase. Journal of Microbiology and Biotechnology, 14(1), 97-104.
  • [26] Son, S.H., Park, K.R. 2004. Purification and characterization of the lipase from Acinetobacter sp. B2 isolated from oil-contaminated soil. Korean Journal of Microbiology, 40(4), 320-327.
  • [27] Pratuangdejkul, J., Dharmsthiti, S. 2000. Purification and characterization of lipase from psychrophilic Acinetobacter calcoaceticus LP009. Microbiology Research,155(2), 95-100.
  • [28] Hong, M.C., Chang, M.C. 1998. Purification and characterization of an alkaline lipase from a newly isolated Acinetobacter radioresistens CMC-1, Biotechnology Letters, 20(11), 1027-1029.
  • [29] Mitsuhashi, K., Yamashita, M., Hwan, Y.S., Ihara, F., Nihira, T., Yamada, Y. 1999. Purification and characterization of a novel extracellular lipase catalyzing hydrolysis of oleyl benzoate from Acinetobacter nov sp. strain KM109. Bioscience, Biotechnology, and Biochemistry, 63(11), 1959-1964.
  • [30] Ng, I.S., Tsai, S.W., Chen, S.J. 1999. Purification and characterization of extracellular lipase from Acinetobacter radioresistens CMC-2. Journal of the Chinese Institute of Chemical Engineers, 30(5), 355-362.
There are 30 citations in total.

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Journal Section Articles
Authors

Hatice Katı

Şule Seren This is me

Publication Date April 16, 2018
Published in Issue Year 2018 Volume: 22 Issue: 1

Cite

APA Katı, H., & Seren, Ş. (2018). Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 22(1), 7-12. https://doi.org/10.19113/sdufbed.10020
AMA Katı H, Seren Ş. Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains. SDÜ Fen Bil Enst Der. April 2018;22(1):7-12. doi:10.19113/sdufbed.10020
Chicago Katı, Hatice, and Şule Seren. “Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 22, no. 1 (April 2018): 7-12. https://doi.org/10.19113/sdufbed.10020.
EndNote Katı H, Seren Ş (April 1, 2018) Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 22 1 7–12.
IEEE H. Katı and Ş. Seren, “Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains”, SDÜ Fen Bil Enst Der, vol. 22, no. 1, pp. 7–12, 2018, doi: 10.19113/sdufbed.10020.
ISNAD Katı, Hatice - Seren, Şule. “Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 22/1 (April 2018), 7-12. https://doi.org/10.19113/sdufbed.10020.
JAMA Katı H, Seren Ş. Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains. SDÜ Fen Bil Enst Der. 2018;22:7–12.
MLA Katı, Hatice and Şule Seren. “Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 22, no. 1, 2018, pp. 7-12, doi:10.19113/sdufbed.10020.
Vancouver Katı H, Seren Ş. Biochemical Characterization of Lipases Obtained from Acinetobacter psychrotolerans Strains. SDÜ Fen Bil Enst Der. 2018;22(1):7-12.

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