BIODEGRADACIÓN DE CARBOFURAN Y CARBARIL POR Sphingomonas sp., S8-M3-13
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Abou-Shanab, R. A I., M. a, Khalafallah, N. F., Emam, M. a, Aly, S. a, Abou-Sdera, and I. Matter, 2012. Characterization and identification of carbofuran-utilising bacteria isolated from agricultural soil. Chem. Ecol, 28(2), 193-203.
Bano, N. and J. Musarrat 2004. Characterization of a novel carbofuran degrading Pseudomonas sp. with collateral biocontrol and plant growth promoting potential. FEMS Microbiol. Lett. 231, 13-17.
Bonner, M. R.; W. J. Lee; D. P. Sandler; J. A. Hoppin; M. Dosemeci. and M. C. R. Alavanja 2005. Occupational exposure to carbofuran and the Incidence of cancer in the agricultural health study. Environ. Health Perspect. 113, 285-289.
Castellanos-Rozo J., J. Sánchez, D. Uribe; L. Moreno and L. Melgarejo 2013a. Characterization of carbofuran degrading bacteria obtained from potato cultivated soils with different pesticide application records. Revista Facultad Nacional de Agronomía. Rev. Fac. Nal. Agr. Medellín. 66(1): 6899-6908.
Castellanos-Rozo, J., and L. Y. Rache Cardenal 2013b. Microorganismos, enzimas, plásmidos y genes involucrados en la degradación de plaguicidas N-metilcarbamatos. Rev. Int. Contam. Ambie., 29 (SPEC.ISSUE), 105-119.
Castellanos-Rozo J., and J. Galvis, 2015. Rutas de degradación del plaguicida N-metilcarbamato carbaril. Revista I3+, 2(2), 134 - 147p.
Chapalamadugu, S. and G. R. Chaudhry 1991. Hydrolysis of carbaryl by a Pseudomonas sp. and construction of a microbial consortium that completely metabolizes carbaryl. Appl. Environ. Microbiol. 57, 744-750.
Desaint, S., A., Hartmann, N. R. Parekh, and J. Fournier, C. 2000. Genetic diversity of carbofuran-degrading soil bacteria. FEMS. Microbiol. Ecol, 34(2), 173-180.
Doddamani, H. P. and H. Z. Ninnekar 2001. Biodegradation of carbaryl by a Micrococcus species. Curr. Microbiol. 43, 69-73.
Fang, H. H. P., D., Liang, and T. Zhang 2007. Aerobic degradation of diethyl phthalate by Sphingomonas sp. Bioresource. Technol, 98(3), 717-720.
Feng, X.; L. T. Ou. and A. Ogram 1997. Plasmid-mediated mineralization of carbofuran by Sphingomonas sp. strain CF06. Appl. Environ. Microbiol. 63, 1332–1337.
Gherna, J. 1986. Storage and survival of bacteria by ultra-free. Lett. Appl. Microbiol. 3:127-129.
Goad, R. T.; J. T. Goad; B. H. Atieh. and R. C. Gupta 2004. Carbofuran-induced endocrine disruption in adult male rats. Toxicol. Mech. Methods. 14, 233-239.
Hamada, M., Matar, and A. Bashir, 2015. Carbaryl degradation by bacterial isolates from a soil ecosystem of the Gaza Strip. Braz. J. Microbiol. 46 (4), 1087-1091.
Hashimoto, M.; M Fukui; K. Hayano and M. Hayatsu 2002. Nucleotide sequence and genetic structure of a novel carbaryl hydrolase gene (cehA) from Rhizobium sp. Strain AC100. Appl. Environ. Microbiol. 68, 1220-1227.
Hayatsu, M.; M. Hirano and T. Nagata 1999. Involvement of two plasmids in the degradation of carbaryl by Arthrobacter sp. Strain RC100. Appl. Environ. Microbiol. 65, 1015-1019.
Hmimou, A.; A. Maslouhi; K. Tamoh and L. Candela 2014. Experimental monitoring and numerical study of pesticide (Carbofuran) transfer in an agricultural soil at a field site. Comptes Rendus Geoscience. 346, 255–261.
Kim, I. S.; J. Y Ryu; H. G Hur; M. B. Gu; S. D. Kim and J. H. Shim 2004. Sphingomonas sp. strain SB5 degrades carbofuran to a new metabolite by hydrolysis at the furanyl ring. J. Agric. Food Chem. 52, 2309-2314.
Kolvenbach, B. A., P. F. and Corvini X. 2012. The degradation of alkylphenols by Sphingomonas sp. strain TTNP3 - a review on seven years of research. New Biotechnology. 30, 88-95.
Larkin, M. J. and M. J. Day1986. The metabolism of carbaryl by three bacterial isolates, Pseudomonas sp. (NCIB 12042 and 12043) and Rhodococcus sp. (NCIB 12038) from Garden Soil. J. Appl. Bacteriology. 60(1): 233-242.
Mateen, A.; G. R. Chaudhry; B Kaskar; M. Sardessai; M. Bloda; A. R. Bhatti. and S. K. Walia 2002. Induction of carbofuran oxidation to 4-hydroxycarbofuran by Pseudomonas sp. 50432. FEMS Microbiol. Lett. 214, 171-6.
McDonald, I.; P. Kämpfer; E Topp; K. L. Warner; M. J. Cox; T. L. Connell; L. G. Miller; M. J. Larkin; V. Ducrocq; C Coulter; D. B. Harper; M. J. Colin and R. S. Oremland 2005. Aminobacter ciceronei sp. nov. and Aminobacter lissarensis sp. nov., isolated from various terrestrial environments. Int. J. Syst. Evol. Microbiol. 55, 1827-1832.
Ogram, A. V.; Y. P Duan; S. L. Trabue; X Feng; H. Castro and L. T. Ou 2000. Carbofuran degradation mediated by three related plasmid systems. FEMS Microbiol. Ecol. 32, 197-203.
Park, M. R.; L. Sunwoo; H. Tae-ho; O. Byung; H. S. Jae and S. K. In 2006. A new intermediate in the degradation of carbofuran by Sphingomonas sp. strain SB5. J. Microbiol. Biotech. 16, 1306-1310.
Plangklang, P. and A. Reungsang 2012. Isolation and characterization of a carbofuran degrading Burkholderia sp. PCL3 from carbofuran-phytoremediated rhizosphere soil. Chem. Ecol. 28, 253-266.
Proagro. 2015. Disponible en: http://www.pro-agro.com.mx/prods/fmc/fmc16.htm. Consultado el 27 de agosto del 2015.
Sakai, K., H., Yamanaka, K., Moriyoshi, T., Ohmoto, and T. Ohe, 2007. Biodegradation of bisphenol A and related compounds by Sphingomonas sp. strain BP-7 isolated from seawater. Biosci., Biotechnol., Biochem, 71(1), 51-7.
Sato, Y.; T. Tsukamoto and M. Sato1999. Rapid degradation of carbaryl by two novel strains of Arthrobacter spp. isolated from forest soil. J. For. Res. 4 (4): 275-280.
Shin, D.-H., D. Kim, -U., C. Seong, -N., H. Song, -G., and J. Ka, -O. 2012. Genetic and phenotypic diversity of carbofuran-degrading bacteria isolated from agricultural soils. J. Microbiol. Biotechnol, 22(4), 448-56.
Slaoui M.; M. Ouhssine; M. E. L. M’rabet; M. E. T. Massoui and M. E. Elyachioui 2001. Degradation du carbofuran par une bacterie du genre Pseudomonas sp. isolee a partir du sol. Sci. Lett. 3, 3-6.
Swetha, V. P. and P. S. Phale 2005. Metabolism of carbaryl via 1,2-dihydroxynaphthalene by soil isolates Pseudomonas sp. strains C4, C5, and C6. Appl Environ Microbiol.71:5951–5956.
Topp, E.; R. S. Hanson; D. B. Ringelberg; D. C. White and R. Wheatcroft 1993. Isolation and characterization of an N-methylcarbamate insecticide-degrading methylotrophic bacterium. Appl. Environ. Microbiol. 59, 3339-3349.
Waigi, M. G., F. Kang, C. Goikavi, W. Ling, and Y. Gao, 2015. Phenanthrene biodegradation by sphingomonads and its application in the contaminated soils and sediments: A review. Int. Biodeterior. Biodegrad., 104, 333-349.
Wu, J.; Q. Hong; Y. N. Chen and S. P. Li 2006. Analysis of the degrading products of Carbofuran by Sphingomonas sp. with GC/MS and GC/FTIR. Spectros. Spect. Anal. 26, 1716-1719.
Xu, J.; Q Hong; Y Hong and S. Li, 2011. Isolation, identification and degradation of Carbofuran-degrading Strain CFDS-1. Chinese J. Appl. Environ. Biol. 17, 237-242.
Yabuuchi, E., H. Yamamoto, S. Terakubo, N. Okamura, T. Naka, N. Fujiwara, K. Kobayashi, Y. Kosako and Hiraishi A. 2000. Proposal of Sphingomonas wittichii sp. nov. for strain RW1T, known as a dibenzo-p-dioxin metabolizer. Int. J. Syst. Evol. Microbiol, 51(2), 281-292.
Yan Q.; Q. Hong; P. Han; X. Dong; Y. Shen and S. Li. 2007. Isolation and characterization of a Carbofuran degrading strain Novosphingobium sp. FEMS Microbiol. Lett. 271, 207-213.
Yan, Q. X., Y. Wang, X., S. P. Li, W. J. Li, and Q. Hong, 2010. Sphingobium qiguonii sp. nov., a carbaryl-degrading bacterium isolated from a wastewater treatment system. Int. J. Syst. Evol. Microbiol, 60(12), 2724-2728.
Zhao, H. P., L. Wang, J. R. Ren, Z. Li, M. Li, and H. W. Gao, 2008. Isolation and characterization of phenanthrene-degrading strains Sphingomonas sp. ZP1 and Tistrella sp. ZP5. J. Hazard. Mater. Journal, 152(3), 1293-1300.
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