Diagnóstico molecular como herramienta en la identificación de plagas y enfermedades
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nov 28, 2019
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Barrera Valle M. Diagnóstico molecular como herramienta en la identificación de plagas y enfermedades. EEC [Internet]. 28 de noviembre de 2019 [citado 23 de abril de 2024];1(1). Disponible en: https://revistaecuadorescalidad.agrocalidad.gob.ec/revistaecuadorescalidad/index.php/revista/article/view/78
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[1] M.M. López , E. Bertolini , A Olmos , P. Caruso, M.T. Gorris , P. Llop , R.Penyalver , M. Cambra . Innovative tools for detection of plant pathogenic viruses and bacteria. Int Microbiol.Vol 6, no. 4, pp. 233-43, Dic. 2003.
[2] J. Belak. “Molecular diagnosis of viral diseases, present trends and future aspects A view from the OIE Collaborating Centre for the Application of Polymerase Chain Reaction Methods for Diagnosis of Viral Diseases in Veterinary Medicine”. Vacccine. Vol. 26, No. 30, pp. 5444 -5452, Jul, 2007.
[3] A.E. Lew-Tabor . “Applications in livestoks systems” en “Biotecnology”. Vol II. Ed. Encyclopedia of Life Support Systems. Acceso en línea http://www.eolss.net/Sample-Chapters/C17/E6-58-02-07.pdf. Enero 2015.
[4] OIE. OIE-Listed diseases, infections and infestations in force in 2015. Acceso en línea: http://www.oie.int/en/animal-health-in-the-world/oie-listed-diseases-2015. Enero 2015.
[5] E. Pestana, S. Belak, A. Diallo, , J.R Crowther, G.J. Viljo. “Early, rapid and sensitive veterinary molecular diagnostics - real time PCR applications”. Ed. Springer Science+Business Media B.V., Dordrecht. pp, 4, 2010.
[6] OIE. “Biotechnology in the diagnosis of infectious diseases”. Guía 3.2 en : “Manual of diagnostic tests and vaccines for terrestrial animals” . Acceso en línea, .http://www.oie.int/ fileadmin/Home/ eng/Health_standards/tahm/A_index.htm. Enero 2015
[7] V. Marilat, I. E. Bergmann, R. de Mendoca-Campos, G. Salgado, C. Sánchez, F. Conde, F. Quiroga, J.L. Quiroga, S. Ortiz. “Phylogenetic analysis of Foot-and Mouth disease virus type O circulating in the Andean region of South America during 2002-2008”. Vet. Microbiol. Vol.152, no. Aug 29, pp.74-87, 2011.
[8] OIE WAHID. http://www.oie.int/wahis_2/public/wahid.php/Diseaseinformation/statusdetail
[9] Maradei, E., Perez,C., Malirat ,V., Salgado G,Seki C, Pedemonte A, Bonastre P, D’Aloia R, José L. La Torre JL, Mattion N, Rodríguez Toledo J, Bergmann IE. Characterization of foot-and-mouth disease virus from outbreaks in Ecuador during 2009–2010 and cross-protection studies with the vaccine strain in use in the region. Vaccine. Vol.29, pp. 8230– 8240, 2011.
[10] C.R. Parrish, E. C. Holmes, D. M. Morens,3 E-CPark, S. Burke,C.H. Calisher, C.A. Laughlin,L.J. Saif, P. Daszak. “Cross-Species Virus Transmission and the Emergence of New Epidemic Diseases”. Microbiology and molecular biology reviews. Vol. 72, No. 3, p. 457–470, Sept. 2008.
[11] C. Brockwell-Staatsa, R.G. Webster, R. J. Webby. Diversity of Influenza Viruses in Swine and the Emergence of a Novel Human Pandemic Influenza A (H1N1). Influenza Other Respi Viruses. Vol.3, no.5, pp. 207–213. Sep. 2009.
[12] J. A. Vallejos-Espíndola, M.A. Troncoso-González. “Impacto medioambiental en la incidencia
del Síndrome Cardiopulmonar por Hantavirus en Chile”
Rev. Med. Chile. Vol.142, pp.538-539, 2014.
[13] V. Doceul, E. Lara, C. Sailleau, G. Belbis, J. Richardson, E. Bréard, C. Viarouge, M. Dominguez, P Hendrikx, D. Calavas, A. Desprat, L. Languille, L. Comtet, P. Pourquier, J.F Eléouët, B. Delmas, P. Marianneau, D. Vitour, S. Zientara. “Epidemiology, molecular virology and diagnostics of Schmallenberg virus, an emerging orthobunyavirus in Europe”. Vet. Res.Vol.44, pp.31, 2013.
[14] O. A. Guzman-Piedrahita, J. Castaño-Zapata, B. Villegas Estrada. “Diagnóstico de enfermedades de las plantas de origen biótico”. Agron.Vol.17, no. 2, pp.7-24, 2009.
[15] X. Ma, P. Agudelo, J.D. Mueller, H.T. Knap. “Molecular Characterization and Phylogenetic Analysis of Hoplolaimus stephanus”. J Nematol. Vol. 43, no.1, pp.25–34, Mar 2011.
[16] Solke H. De Boer1 and María M. Lopez. New Grower-Friendly Methods for Plant Pathogen Monitoring. Annu. Rev. Phytopathol. Vol. 50, pp.197–218, 2012.
[17] V.C. Bloka. “Achievements in and future prospects for molecular diagnostics of plant-parasitic nematode”s. Can. J.of Plant Path. Vol.27, pp 2, 2005.
[18] R.K. Saiki, T.L. Bugawan, G.T. Horn, K.B. Mullis, H.A. Erlich. Analysis of enzymatically amplified beta-globin and HLA-DQ alpha DNA with allele-specific oligonucleotide probes. Nature. Vol. 324, no.6093, pp.163-6, Nov 13-19, 1986.
[19] Mullis KB. One of the first Polymerase Chain Reaction (PCR). Patente US 4683195 A, Octubre 1987.
[20] R. Higuchi, C. Fockler, G. Dollinger, R.Watson. “Kinetic PCR analysis: real-time monitoring of DNA amplification reactions”. Biotechnol. Vol.11, no 9, pp.1026-30, 1993.
[21] J.Costa. “La PCR convencional en el contexto de la microbiología clínica”. Enferm Infecc Microbiol Clin. Vol. 22, no.5, pp.299-305, 2004.
[2] J. Belak. “Molecular diagnosis of viral diseases, present trends and future aspects A view from the OIE Collaborating Centre for the Application of Polymerase Chain Reaction Methods for Diagnosis of Viral Diseases in Veterinary Medicine”. Vacccine. Vol. 26, No. 30, pp. 5444 -5452, Jul, 2007.
[3] A.E. Lew-Tabor . “Applications in livestoks systems” en “Biotecnology”. Vol II. Ed. Encyclopedia of Life Support Systems. Acceso en línea http://www.eolss.net/Sample-Chapters/C17/E6-58-02-07.pdf. Enero 2015.
[4] OIE. OIE-Listed diseases, infections and infestations in force in 2015. Acceso en línea: http://www.oie.int/en/animal-health-in-the-world/oie-listed-diseases-2015. Enero 2015.
[5] E. Pestana, S. Belak, A. Diallo, , J.R Crowther, G.J. Viljo. “Early, rapid and sensitive veterinary molecular diagnostics - real time PCR applications”. Ed. Springer Science+Business Media B.V., Dordrecht. pp, 4, 2010.
[6] OIE. “Biotechnology in the diagnosis of infectious diseases”. Guía 3.2 en : “Manual of diagnostic tests and vaccines for terrestrial animals” . Acceso en línea, .http://www.oie.int/ fileadmin/Home/ eng/Health_standards/tahm/A_index.htm. Enero 2015
[7] V. Marilat, I. E. Bergmann, R. de Mendoca-Campos, G. Salgado, C. Sánchez, F. Conde, F. Quiroga, J.L. Quiroga, S. Ortiz. “Phylogenetic analysis of Foot-and Mouth disease virus type O circulating in the Andean region of South America during 2002-2008”. Vet. Microbiol. Vol.152, no. Aug 29, pp.74-87, 2011.
[8] OIE WAHID. http://www.oie.int/wahis_2/public/wahid.php/Diseaseinformation/statusdetail
[9] Maradei, E., Perez,C., Malirat ,V., Salgado G,Seki C, Pedemonte A, Bonastre P, D’Aloia R, José L. La Torre JL, Mattion N, Rodríguez Toledo J, Bergmann IE. Characterization of foot-and-mouth disease virus from outbreaks in Ecuador during 2009–2010 and cross-protection studies with the vaccine strain in use in the region. Vaccine. Vol.29, pp. 8230– 8240, 2011.
[10] C.R. Parrish, E. C. Holmes, D. M. Morens,3 E-CPark, S. Burke,C.H. Calisher, C.A. Laughlin,L.J. Saif, P. Daszak. “Cross-Species Virus Transmission and the Emergence of New Epidemic Diseases”. Microbiology and molecular biology reviews. Vol. 72, No. 3, p. 457–470, Sept. 2008.
[11] C. Brockwell-Staatsa, R.G. Webster, R. J. Webby. Diversity of Influenza Viruses in Swine and the Emergence of a Novel Human Pandemic Influenza A (H1N1). Influenza Other Respi Viruses. Vol.3, no.5, pp. 207–213. Sep. 2009.
[12] J. A. Vallejos-Espíndola, M.A. Troncoso-González. “Impacto medioambiental en la incidencia
del Síndrome Cardiopulmonar por Hantavirus en Chile”
Rev. Med. Chile. Vol.142, pp.538-539, 2014.
[13] V. Doceul, E. Lara, C. Sailleau, G. Belbis, J. Richardson, E. Bréard, C. Viarouge, M. Dominguez, P Hendrikx, D. Calavas, A. Desprat, L. Languille, L. Comtet, P. Pourquier, J.F Eléouët, B. Delmas, P. Marianneau, D. Vitour, S. Zientara. “Epidemiology, molecular virology and diagnostics of Schmallenberg virus, an emerging orthobunyavirus in Europe”. Vet. Res.Vol.44, pp.31, 2013.
[14] O. A. Guzman-Piedrahita, J. Castaño-Zapata, B. Villegas Estrada. “Diagnóstico de enfermedades de las plantas de origen biótico”. Agron.Vol.17, no. 2, pp.7-24, 2009.
[15] X. Ma, P. Agudelo, J.D. Mueller, H.T. Knap. “Molecular Characterization and Phylogenetic Analysis of Hoplolaimus stephanus”. J Nematol. Vol. 43, no.1, pp.25–34, Mar 2011.
[16] Solke H. De Boer1 and María M. Lopez. New Grower-Friendly Methods for Plant Pathogen Monitoring. Annu. Rev. Phytopathol. Vol. 50, pp.197–218, 2012.
[17] V.C. Bloka. “Achievements in and future prospects for molecular diagnostics of plant-parasitic nematode”s. Can. J.of Plant Path. Vol.27, pp 2, 2005.
[18] R.K. Saiki, T.L. Bugawan, G.T. Horn, K.B. Mullis, H.A. Erlich. Analysis of enzymatically amplified beta-globin and HLA-DQ alpha DNA with allele-specific oligonucleotide probes. Nature. Vol. 324, no.6093, pp.163-6, Nov 13-19, 1986.
[19] Mullis KB. One of the first Polymerase Chain Reaction (PCR). Patente US 4683195 A, Octubre 1987.
[20] R. Higuchi, C. Fockler, G. Dollinger, R.Watson. “Kinetic PCR analysis: real-time monitoring of DNA amplification reactions”. Biotechnol. Vol.11, no 9, pp.1026-30, 1993.
[21] J.Costa. “La PCR convencional en el contexto de la microbiología clínica”. Enferm Infecc Microbiol Clin. Vol. 22, no.5, pp.299-305, 2004.