Isolation, identification, and analysis of the invertase-producing bacteria abundance in sugarcane rhizosphere soil with different plant productivity levels
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Abstract. Lase ERK, Giyanto Santosa DA. 2021. Isolation, identification, and analysis of the invertase-producing bacteria abundance in sugarcane rhizosphere soil with different plant productivity levels. Biodiversitas 22: 3156-3162. microbes and enzymes play an important role in maintaining the stability of soil ecosystems. Invertase is one of the soil enzymes produced by microbes to hydrolyze sucrose in the environment. The aims of this study were to investigate the abundance of invertase-producing bacteria and soil invertase activity in sugarcane rhizosphere soil with different plant productivity levels and their correlation with soil chemical and physical properties and to obtain invertase-producing bacteria from the sugarcane rhizosphere. The samples of sugarcane rhizosphere soil were collected using a randomized sampling method and determine their physical-chemical properties, the abundance of invertase-producing bacteria, and soil invertase activity. Twenty invertase-producing bacteria were successfully isolated and tested their abilities to produce invertase qualitatively and quantitatively. The three best isolates (ScT112, ScT124, and ScR301) were molecularly identified using the 16S rRNA gene and phylogenetic tree analysis. The results of this study indicate that there is a significant correlation between invertase bacterial abundance and soil invertase activity. The abundance of invertase-producing bacteria correlates with pH, organic C, total N, and soil sand content. Invertase activity in the soil correlates with pH and organic C. Based on the phylogenetic tree, the isolates of ScT112 had the closest homology with Cupriavidus sp., ScT124 was homologous with Klebsiella variicola, while ScR301 was homologous with Pantoea sp. These three isolates have the potential to be developed in industrial biotechnology to produce invertase. The hydrolysis zones of ScT112, ScT124, and ScR301 were 3.12 cm, 2.76 cm, and 2.55 cm, respectively with the invertase activity of 27.82 U mL-1, 24.56 U mL-1, and 24.08 U mL-1.
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References
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Bruggen AC, Sharma K, Kaku E, Karfopoulos S, Zelenev V, Blok WJ. 2015. Soil health indicators and Fusarium wilt suppression in organically and conventionally managed greenhouse soils. App Soil Eco. 86: 192-201.
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Wang Z, Liu Y, Zhao L, Zhang W, Liu L. 2019. Change of soil microbial community under long-term fertilization in a reclaimed sandy agricultural ecosystem. PeerJ. 7: e6497.
Win TT, Isono N, Kusnadi Y, Watanabe K, Obae K, Ito H, Matsui H. 2004. Enzymatic synthesis of two novel non-reducing oligosaccharides using transfructosilation activity with beta-fructofuranosidase from Arthrobacter globiformis. Biotechnol Let. 26: 499-503.
Wu L, Birch R. 2005. Characterization of the highly efficient sucrose isomerase from Pantoea dispersa UQ68J and cloning of the sucrose isomerase gene. App Env Microbiol J. 71(3): 1591-1590.
Xiao Y, Huang Z, Lu X. 2015. Changes of soil labile organic carbon fractions and their relation to soil microbial characteristics in four typical wetlands of Sanjiang Plain, Northeast China. Eco Eng. 82: 381-389.
Xu Y, Wang G, Jin J, Liu J, Zhang Q, Liu X. 2009. Bacterial communities in soybean rhizosphere in response to soil type, soybean genotype, and their growth stage. Soil Biol Biochem. 41: 919-925.
Yoon MH, Choi WY, Kwon SJ, Yi SH, Lee DH, Lee JS. 2007. Purification and properties of intracellular invertase from alkalophilic and thermophilic Bacillus cereus TA-11. J Appl Biol Chem. 50: 196-201.
Belorkar SA, Gupta AK, Rai V. 2015. Screening of microbial isolates for extracellular fructosyltransferase production. Afr J Microbiol Res. 9(10): 730-735.
Bobille H, Limami AM, Robins RJ, Cukier C, Floch GL, Fustec J. 2016. Evolution of the amino acid fingerprint in the unsterilized rhizosphere of a legume in relation to plant maturity. Soil Biol Biochem. 101: 226-236.
[BPS] Badan Pusat Statistik. 2018. Statistik Tebu Indonesia 2017. Jakarta (ID): BPS RI.
Bruggen AC, Sharma K, Kaku E, Karfopoulos S, Zelenev V, Blok WJ. 2015. Soil health indicators and Fusarium wilt suppression in organically and conventionally managed greenhouse soils. App Soil Eco. 86: 192-201.
Frankenberger WT, Johanson JB. 1983. Factors affecting invertase activity in soils. Plant and Soil. 74: 313-323.
Hamarashid H, Othman MA, Hussain MH. 2010. Effects of soil texture on chemical compositions, microbial populations and carbon mineralization in soil. Egypt J Exp Biol. 6(1): 59-64.
Hartono D, Kastono D, Rogomulyo R. 2016. Pengaruh jenis bahan tanam dan takaran kompos blotong terhadap pertumbuhan awal tebu (Saccharum officinarum L). Vegetalika. 5(2): 14-25.
Hu JL, Zhu AN, Wang JH, Dai J, Wang JT, Chen RR, Lin XG. 2013. Soil microbial metabolism and invertase activity under crop rotation and no-tillage in North China. Plant Soil Environ. 59(11): 511-516.
Kaur N, Sharma AD. 2005. Production, optimization and characterization of extracellular invertase by an actinomycete strain. J Sci Ind Res. 64:515-519.
Kulshrestha S, Tyagi P, Sindhi V, Yadavilli KS. 2013. Invertase and its applications: a brief review. J Pharm Res. 7: 792-797.
Lagomarsino A, Grego S, Marhan S, Moscatelli C, Kandeler E. 2009. Soil management modifies micro-scale abundance and function of soil microorganisms in a Mediterranean ecosystem. Eur J Soil Sci. 60: 2-12.
Lin W, Wu L, Lin S, Zhang A, Zhou M, Lin R, Wang H, Chen J, Zhang Z, Lin R. 2013. Metaproteomic analysis of ratoon sugarcane rhizospheric soil. BMC Microbiol. 13: 135.
Lincoln L, More S. 2017. Bacterial invertases: Occurance, production, biochemical characterization, and significance of transfructosylation. J Basic Microbiol. 69: 1-11.
Magnani GS, Didonet CM, Cruz LM, Picheth CF, Pedrosa FO, Souza EM. 2010. Diversity of endophytic bacteria in Brazilian sugarcane. Genet Mol Res. 9(1): 250-258.
Miller GL. 1959. Use of dinitrosalicylic acid reagent for determination of reducing sugar. Anal Chem. 31: 426-428.
Nath T. 2014. Soil texture and total organic matter content and its influences on soil water holding capacity of some selected tea growing soils in Sivasagar District of Assam, India. Int J Chem Sci. 12(4): 1419-1429.
Paz-Ferreiro J, Trasar-Cepeda C, Leiros M, Seoane S, Gil-Sotres F. 2011. Intra-annual variation in biochemical properties and the biochemical equilibrium of different grassland soils under contrasting management and climate. Biol Fertil Soils. 47: 633-645.
Reedy PP, Reddy GSN, Sulochana MB. 2010. Screening of ?-fructofuranosidase procedurs with high tranfructosylation activity and its 32 experimental run studies on reaction rate of enzyme. J Biol Sci. 10(3): 237-241.
Schinner F, Mersi W. 1990. Xylanase, CM-cellulase and invertase activity in soil, an improved method. Soil Biol Biochem. 22: 511-515.
Senechkin IV, Overbeek LS, van Bruggen AHC. 2014. Greater Fusarium wilt suppression after complex than after simple organic amendments as affected by soil pH, total carbon and ammonia-oxidizing bacteria. App Soil Eco.73: 148-155.
Shi ZJ, Lu Y, Xu ZG, Fu SL. 2008. Enzyme activities of urban soils under different land use in the Shenzhen city, China. Plant Soil Env. 54(8): 341-346.
Titgemeyer F, Jahreis K, Ebner R, Lengeler JW. 1996. Molecular analysis of the scrA and scrB genes from Klebsiella pneumoniae plasmid pUR400, which encode the sucrose transport protein Enzyme IIScr of the phosphotransferase system and a sucrose-6-phosphatase invertase. Mol Gen Genet. 250: 197-206.
Wang R, Zhang H, Sun L, Qi G, Chen S, Zhao X. 2017. Microbial community composition is related to soil biological and chemical properties and bacterial wilt outbreak. Nature. 7: 1-10.
Wang Z, Liu Y, Zhao L, Zhang W, Liu L. 2019. Change of soil microbial community under long-term fertilization in a reclaimed sandy agricultural ecosystem. PeerJ. 7: e6497.
Win TT, Isono N, Kusnadi Y, Watanabe K, Obae K, Ito H, Matsui H. 2004. Enzymatic synthesis of two novel non-reducing oligosaccharides using transfructosilation activity with beta-fructofuranosidase from Arthrobacter globiformis. Biotechnol Let. 26: 499-503.
Wu L, Birch R. 2005. Characterization of the highly efficient sucrose isomerase from Pantoea dispersa UQ68J and cloning of the sucrose isomerase gene. App Env Microbiol J. 71(3): 1591-1590.
Xiao Y, Huang Z, Lu X. 2015. Changes of soil labile organic carbon fractions and their relation to soil microbial characteristics in four typical wetlands of Sanjiang Plain, Northeast China. Eco Eng. 82: 381-389.
Xu Y, Wang G, Jin J, Liu J, Zhang Q, Liu X. 2009. Bacterial communities in soybean rhizosphere in response to soil type, soybean genotype, and their growth stage. Soil Biol Biochem. 41: 919-925.
Yoon MH, Choi WY, Kwon SJ, Yi SH, Lee DH, Lee JS. 2007. Purification and properties of intracellular invertase from alkalophilic and thermophilic Bacillus cereus TA-11. J Appl Biol Chem. 50: 196-201.
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