Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr
Halogenated organic compounds are extensively and widely used as pesticides, herbicides, and antibiotics that contribute to the pollution. This research was aimed to further analyze and characterize a bacterium that has the ability to utilize 2,2-dichloropropionic acid (2,2-DCP) as a model to study...
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Gadjah Mada University
2020
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| Online Access: | http://eprints.utm.my/id/eprint/87325/1/MohamedFarajEdbeib2020_FurtherAnalysisofBurkholderiaPseudomalleiMf.pdf http://eprints.utm.my/id/eprint/87325/ http://www.dx.doi.org/10.22146/ijc.43262 |
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my.utm.873252020-10-31T12:29:54Z http://eprints.utm.my/id/eprint/87325/ Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr Edbeib, M. F. Wahab, R. A. Huyop, F. Aksoy, H. M. Kaya, Y. QD Chemistry Halogenated organic compounds are extensively and widely used as pesticides, herbicides, and antibiotics that contribute to the pollution. This research was aimed to further analyze and characterize a bacterium that has the ability to utilize 2,2-dichloropropionic acid (2,2-DCP) as a model to study dehalogenase enzyme production. Microscopic observation, biochemical tests and PCR technique were carried out in order to characterize the isolated bacterium. Strain MF2 showed its ability to grow on 10 mM 2,2-DCP liquid minimal medium with doubling time of 13 h with maximum chloride ion released of 19.8 μmolCl–/mL. The 16S rDNA analysis suggested that strain MF2 belongs to the genus Burkholderia. This was supported by the microscopic observation and biochemical tests. Dehalogenase gene was observed when using only primers dehIfor1 and dehIrev2 derived from group I deh PCR primer sequences, whereas no amplification using dhlB-314-forward and dhlB-637-reverse (group II dehalogenase) and haloacetate dehalogenase (H2-1157-forward and H2-1662-reverse) PCR primer sequences. The results suggested that, possibly, dehalogenase from MF2 was related to group I deh. In conclusion, strain MF2 showed the ability to utilize 2,2-DCP as sole source of carbon and energy. Further analysis revealed the MF2 strain consisted of dehalogenase gene that could be used for degradation of man-made halogenated compounds present in the environment. Using existing dehalogenase PCR primers, it was possible to amplify the dehalogenase genes sequence. Gadjah Mada University 2020 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/87325/1/MohamedFarajEdbeib2020_FurtherAnalysisofBurkholderiaPseudomalleiMf.pdf Edbeib, M. F. and Wahab, R. A. and Huyop, F. and Aksoy, H. M. and Kaya, Y. (2020) Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr. Indonesian Journal of Chemistry, 20 (2). pp. 386-394. ISSN 1411-9420 http://www.dx.doi.org/10.22146/ijc.43262 DOI: 10.22146/ijc.43262 |
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QD Chemistry Edbeib, M. F. Wahab, R. A. Huyop, F. Aksoy, H. M. Kaya, Y. Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr |
| description |
Halogenated organic compounds are extensively and widely used as pesticides, herbicides, and antibiotics that contribute to the pollution. This research was aimed to further analyze and characterize a bacterium that has the ability to utilize 2,2-dichloropropionic acid (2,2-DCP) as a model to study dehalogenase enzyme production. Microscopic observation, biochemical tests and PCR technique were carried out in order to characterize the isolated bacterium. Strain MF2 showed its ability to grow on 10 mM 2,2-DCP liquid minimal medium with doubling time of 13 h with maximum chloride ion released of 19.8 μmolCl–/mL. The 16S rDNA analysis suggested that strain MF2 belongs to the genus Burkholderia. This was supported by the microscopic observation and biochemical tests. Dehalogenase gene was observed when using only primers dehIfor1 and dehIrev2 derived from group I deh PCR primer sequences, whereas no amplification using dhlB-314-forward and dhlB-637-reverse (group II dehalogenase) and haloacetate dehalogenase (H2-1157-forward and H2-1662-reverse) PCR primer sequences. The results suggested that, possibly, dehalogenase from MF2 was related to group I deh. In conclusion, strain MF2 showed the ability to utilize 2,2-DCP as sole source of carbon and energy. Further analysis revealed the MF2 strain consisted of dehalogenase gene that could be used for degradation of man-made halogenated compounds present in the environment. Using existing dehalogenase PCR primers, it was possible to amplify the dehalogenase genes sequence. |
| format |
Article |
| author |
Edbeib, M. F. Wahab, R. A. Huyop, F. Aksoy, H. M. Kaya, Y. |
| author_facet |
Edbeib, M. F. Wahab, R. A. Huyop, F. Aksoy, H. M. Kaya, Y. |
| author_sort |
Edbeib, M. F. |
| title |
Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr |
| title_short |
Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr |
| title_full |
Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr |
| title_fullStr |
Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr |
| title_full_unstemmed |
Further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr |
| title_sort |
further analysis of burkholderia pseudomallei mf2 and identification of putative dehalogenase gene by pcr |
| publisher |
Gadjah Mada University |
| publishDate |
2020 |
| url |
http://eprints.utm.my/id/eprint/87325/1/MohamedFarajEdbeib2020_FurtherAnalysisofBurkholderiaPseudomalleiMf.pdf http://eprints.utm.my/id/eprint/87325/ http://www.dx.doi.org/10.22146/ijc.43262 |
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1683230721496317952 |
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