ISOLATION AND CHARACTERISATION OF THE DEGRADATION POTENTIAL OF 2,2-DICHLOROPROPIONATE (2,2-DCP) BY BACILLUS AMYLOLIQUEFACIENS FROM GEBENG
Year 2022,
Volume: 5 Issue: 2, 200 - 212, 15.08.2022
Firdausi Aliyu
,
Aliyu Adamu
,
Roswanira Ab. Wahab
,
Fahrul Zaman Huyop
Abstract
Most halogenated compounds such as α-halocarboxylic acid (αHCA) are potential carcinogens that are toxic and widely liberated in both aquatic and terrestrial ecosystems. 2,2-dichloropropionate (2,2-DCP) is a synthetic halogenated compound commonly used in agricultural activities as an herbicide. This study is focused on the isolation and characterization of dehalogenase-producing bacteria capable of utilizing 2,2-dichloropropionate as the sole carbon and energy source from soil samples obtained from the industrial hub of Gebeng (Pahang), Malaysia. An enrichment culture technique supplemented with 2,2-DCP was used to isolate the bacteria. A pure culture strain designated as strain FDS grew well in media containing 20 mM 2,2-DCP at a temperature of 30˚C exhibiting a cell doubling time of 22.21hours and a maximum rate of chloride ion release of 0.345mmol/L suggesting this is the optimum concentration for growth. Based on microscopic observations, biochemical characteristics, and phylogenetic analysis of the 16S rRNA gene sequence, FDS was identified as Bacillus amyloliquefaciens with 98% homology. A literature survey revealed no report regarding the role of B. amyloliquefaciens on pesticide biodegradation as well as on 2,2-DCP, therefore the current isolate was designated Bacillus amyloliquefaciens FDS.
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Year 2022,
Volume: 5 Issue: 2, 200 - 212, 15.08.2022
Firdausi Aliyu
,
Aliyu Adamu
,
Roswanira Ab. Wahab
,
Fahrul Zaman Huyop
References
- Aguilera, F., Méndez, J., Pásaro, E., & Laffon, B. (2010). Review on the effects of exposure to spilled oils on human health. Journal of Applied Toxicology, 30(4), 291-301. https://doi.org/10.1002/jat.1521
- Alomar, D., Abdul Hamid, A. A., Khosrowabadi, E., Gicana, R. G., Lamis, R. J., Huyop, F., & Tengku Abdul Hamid, T. H. (2014). Molecular characterization of monochloroacetate-degrading Arthrobacter sp. Strain d2 isolated from Universiti Teknologi Malaysia agricultural area. Bioremediation Journal, 18(1), 12-19. https://doi.org/10.1080/10889868.2013.834867
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- Kumar, S., Stecher, G., & Tamura, K. (2016). MEGA7: Molecular Evolutionary Genetics Analysis version 7.0 for bigger datasets. Molecular biology and evolution, 33(7), 1870-1874.https://doi.org/10.1093/molbev/msw054
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- Leclère, V., Béchet, M., Adam, A., Guez, J.-S., Wathelet, B., Ongena, M., Jacques, P. (2005). Mycosubtilin overproduction by Bacillus subtilis BBG100 enhances the organism's antagonistic and biocontrol activities. Applied and Environmental Microbiology, 71(8), 4577-4584. https://doi.org/10.1128/aem.71.8.4577-4584.2005
- Medina‐Bellver, J. I., Marin, P., Delgado, A., Rodríguez‐Sánchez, A., Reyes, E., Ramos, J. L., & Marques, S. (2005). Evidence for in situ crude oil biodegradation after the Prestige oil spill. Environmental Microbiology, 7(6), 773-779. https://doi.org/10.1111/j.1462-2920.2005.00742.x
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- Piggot, P. J., & Hilbert, D. W. (2004). Sporulation of Bacillus subtilis. Current opinion in microbiology, 7(6), 579-586. https://doi.org/10.1016/j.mib.2004.10.001
- Saitou, N., & Nei, M. (1987). The neighbor-joining method: a new method for reconstructing phylogenetic trees. Molecular biology and evolution, 4(4), 406-425. https://doi.org/10.1093/oxfordjournals.molbev.a040454
- Sathishkumar, M., Binupriya, A. R., Baik, S. H., & Yun, S. E. (2008). Biodegradation of crude oil by individual bacterial strains and a mixed bacterial consortium isolated from hydrocarbon-contaminated areas. CLEAN–Soil, Air, Water, 36(1), 92-96. https://doi.org/10.1002/clen.200700042
- Tiago, I., Teixeira, I., Si1va, S., Chung, P., Veríssimo, A., & Manaia, C. M. (2004). C
- Varsha, Y., Naga Deepthi, C., & Chenna, S. (2011). An emphasis on xenobiotic degradation in environmental cleanup. J Bioremed Biodegrad S, 11, 1-10. https://doi.org/10.4172/2155-6199.s11-001
- Wang, Y., Xin, Y., Cao, X., & Xue, S. (2015). Enhancement of L-2-haloacid dehalogenase expression in Pseudomonas stutzeri DEH138 based on the different substrate specificity between dehalogenase-producing bacteria and their dehalogenases. World Journal of Microbiology and Biotechnology, 31(4), 669-673. https://doi.org/10.1007/s11274-015-1817-2
- Yang, Z., Guo, H., & Zhang, X. (2008). Study on the control of peach post-harvest diseases using Bacillus subtilis. China Fruits, 23, 35-38.