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Campo DC | Valor | Lengua/Idioma |
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dc.contributor.author | Alvarez Centero, José Carlos. | - |
dc.date.accessioned | 2022-06-09T22:30:08Z | - |
dc.date.available | 2018-03-12 | - |
dc.date.available | 2022-06-09T22:30:08Z | - |
dc.date.issued | 2018 | - |
dc.identifier.citation | Álvarez Centero, J. C. (2017). Análisis químico y biológico de la interacción microorganismo Endofítico-planta en Sinningia magnifica [Trabajo de Grado Pregrado, Universidad de Pamplona]. Repositorio Hulago Universidad de Pamplona. | es_CO |
dc.identifier.uri | http://repositoriodspace.unipamplona.edu.co/jspui/handle/20.500.12744/1671 | - |
dc.description | El autor no proporciona la información sobre este ítem. | es_CO |
dc.description.abstract | El autor no proporciona la información sobre este ítem. | es_CO |
dc.format.extent | 108 | es_CO |
dc.format.mimetype | application/pdf | es_CO |
dc.language.iso | es | es_CO |
dc.publisher | Universidad de Pamplona – Facultad de Ciencias Básicas. | es_CO |
dc.subject | El autor no proporciona la información sobre este ítem. | es_CO |
dc.title | Análisis químico y biológico de la interacción microorganismo Endofítico-planta en Sinningia magnifica. | es_CO |
dc.type | http://purl.org/coar/resource_type/c_7a1f | es_CO |
dc.date.accepted | 2017-12-12 | - |
dc.relation.references | Agência Nacional de Vigilância Sanitária [ANVISA] (2008). Manual Clinical and Laboratory Standards Institute–CLSI (antigo NCCLS). www.anvisa.gov.br/servicosaude/manuais/clsi.asp. Acesso em: 27/10/2017 | es_CO |
dc.relation.references | Ardanov, P., Sessitsch, A., Häggman, H., Kozyrovska, N., & Pirttilä, AM. (2012). Methylobacterium- Inducido Endophyte Community Changes corresponde a la protección de las plantas contra el ataque de patógenos. PLoS ONE 7 (10): e46802. https://doi.org/10.1371/journal.pone.0046802 | es_CO |
dc.relation.references | Andreote, F. D. (2011). Análises genômica e transcriptômica de Methylobacterium mesophilicum SR1.6/6 em interação com a planta hospedeira. Disertación de Maestria, Escola Superior de Agricultura Luiz de Queiroz, Universidad de São Paulo, Piracicaba. doi: 10.11606/D.11.2011.tde-25042011-093922. Recuperado 2017-12-01, de www.teses.usp.br | es_CO |
dc.relation.references | Arrarte, E., Garmendia, G., Rossini, C., Wisniewski, M., & Vero, E. (2017). “Volatile Organic Compounds Produced by Antarctic Strains of Candida sake Play a Role in the Control of Postharvest Pathogens of Apples.” Biological Control. http://dx.doi.org/10.1016/j.biocontrol.2017.03.002. | es_CO |
dc.relation.references | Azevedo, J. L. (1998). “Microorganismos Endofíticos”, Revista Ecologia microbiana, UFGO: 117-136. | es_CO |
dc.relation.references | Babikova, Z., & Caulfield, J. C. (2013). “Underground Signals Carried through Common Mycelial Networks Warn Neighbouring Plants of Aphid Attack.”: 835–43. | es_CO |
dc.relation.references | Batista, M., Fialho, L., Marcio, P., & Pedroso, F. (2010). “Volatile Organic Compounds Produced by Saccharomyces cerevisiae Inhibit the in vitro Development of Guignardia citricarpa, the Causal Agent of Citrus Black Spot.”: 92-32. | es_CO |
dc.relation.references | Bellemain, E., Carlsen, T., Brochmann, C., Coissac, E., Taberlet, P., & Kauserud, H. (2010). ITS as an environmental DNA barcode for fungi: an in-silico approach reveals potential PCR biases, 1–9. | es_CO |
dc.relation.references | Bensch, K., Braun, U., Groenewald, J.Z., & Crous, P.W., (2012). The genus Cladosporium. Studies in Mycology 72: 1–401. | es_CO |
dc.relation.references | Berg, Gabriele. (2009). “Plant – Microbe Interactions Promoting Plant Growth and Health: Perspectives for Controlled Use of Microorganisms in Agriculture.”: 11–18. | es_CO |
dc.relation.references | Brader, G., Compant, S., Mitter, B., Trognitz, F., & Sessitsch, A. (2014). “Metabolic Potential of Endophytic Bacteria.” Current Opinion in Biotechnology 27: 30–37. | es_CO |
dc.relation.references | Chae, Soo Cheon, Haeng Hoon Kim, & Sang Un Park. (2012). “Ethylene Inhibitors Enhance Shoot Organogenesis of Gloxinia (Sinningia speciosa).” The Scientific World Journal 2012:1-5. | es_CO |
dc.relation.references | Chautems, A. et al. (2003). “Gesneriaceae Chave Para Os Gêneros.” 3: 75–103. | es_CO |
dc.relation.references | CNCFlora. Sinningia magnifica in Lista Vermelha da flora brasileira versão (2012). Centro Nacional de Conservação da Flora. Disponível em <http://cncflora.jbrj.gov.br/portal/pt-br/profile/Sinningia magnifica>. Acesso em: 24 setembro 2017. | es_CO |
dc.relation.references | Costa, M. et al. (2015). “Molecular Phylogeny, Diversity, Symbiosis and Discover of Bioactive Compounds of Endophytic Fungi Associated with the Medicinal Amazonian Plant Carapa guianensis Aublet (Meliaceae).” Biochemical Systematics and Ecology 59: 36–44. | es_CO |
dc.relation.references | Das, S., Dash, H. R., Mangwani, N., Chakraborty, J., & Kumari, S. (2014). Understanding molecular identification and polyphasic taxonomic approaches for genetic relatedness and phylogenetic relationships of microorganisms. Journal of Microbiological Methods. http://doi.org/10.1016/j.mimet.2014.05.013 | es_CO |
dc.relation.references | Dibut B., Martínez-Viera, R., Ortega, M., Ríos, Y., Tejeda, G., Planas, L. & Rodríguez, J. (2009). Situación Actual y Perspectiva de las Relaciones Endófitas Planta-Bacteria. Estudio de Caso Gluconacetobacter Diazotrophicus-Cultivos de Importancia Económica. Cultivos Tropicales 30(4): 16–23. | es_CO |
dc.relation.references | Duperron, S. (1ra Ed.) (2017). Microbial Symbioses. London: ISTE Press Ltd. | es_CO |
dc.relation.references | Falcão, J., Dáttilo, W., & Izzo, T. (2015). “Forest Ecology and Management Efficiency of Different Planted Forests in Recovering Biodiversity and Ecological Interactions in Brazilian Amazon.” 339: 105–11. | es_CO |
dc.relation.references | Ferreira, J., Chautems, & Waechter, L. (2016). “Subtropical Species of Sinningia (Gesneriaceae): Distribution Patterns and Limiting Environmental Factors.” Flora. http://dx.doi.org/10.1016/j.flora.2016.04.002. | es_CO |
dc.relation.references | Ferreira, J., Chautems, & Waechter, L. (2016). “Subtropical Species of Sinningia (Gesneriaceae): Distribution Patterns and Limiting Environmental Factors.” Flora. http://dx.doi.org/10.1016/j.flora.2016.04.002. | es_CO |
dc.relation.references | Frisvad, J. C., & Samson, R. A. (2004). Polyphasic taxonomy of Penicillium subgenus Penicillium: A guide to identification of food and air-borne terverticillate Penicillia and their mycotoxins. Studies in Mycology. 49: 1–173. | es_CO |
dc.relation.references | García, T., Knaak, N., & Fiuza, L. (2015). “Endophytic Bacteria as Biological Control Agents in Rice Fields.” Agricultural Microbiology 82: 1–9. | es_CO |
dc.relation.references | Gonçalves, A., & Diniz S. (2008). “Diversidade de Interações Micróbio-Planta e Processos Ecossistêmicos.” Ecologia de comunidades e ecossistemas. 1-15. | es_CO |
dc.relation.references | Hall, T.A. (1999) BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucl. Acids. Symp. Ser. 41:95-98. | es_CO |
dc.relation.references | Hernández-Tasco, A. J. (2016). Investigação microbiológica, condições de crescimento e potencial metabólico para a busca de produtos naturais bioativos no fungo endofítico Cladosporium sp. (AC-1) isolado de Annona cacans (Annonaceae). Dissertação de mestrado. Universidade Estadual de Campinas-UNICAMP. | es_CO |
dc.relation.references | Hernández-León, R., Rojas-Solís, D., Contreras-Pérez, M., Orozco-Mosqueda, M., Macías-Rodríguez, L., Reyes-de la Cruz, H., Valencia-Cantero, E. & Santoyo, G. (2014). “Organic Compounds Produced by Pseudomonas fluorescens Strains Corresponding Author: Gustavo Santoyo, Instituto de Investigaciones Químico Biológicas,” BIOLOGICAL CONTROL. http://dx.doi.org/10.1016/j.biocontrol.2014.11.011. | es_CO |
dc.relation.references | Hong-thao, Phan Thi, Nguyen Vu Mai-linh, Nguyen Thi Hong-lien, & Nguyen Van Hieu. (2016). “Biological Characteristics and Antimicrobial Activity of Endophytic Streptomyces sp. TQR12-4 Isolated from Elite Citrus nobilis Cultivar Ham Yen of Vietnam.” 2016: 1–8. | es_CO |
dc.relation.references | Hushna, A., Minako, K., Miyazawa, M., & Hyakumach, M. (2013). “Analysis of Volatile Organic Compounds Emitted by Plant Growth-Promoting Fungus Phoma sp. GS8-3 for Growth Promotion Effects on Tobacco.” Microbes Environ 28(1): 42–49. | es_CO |
dc.relation.references | Ismaiel, A., Ashraf S. Ahmed, & Ismail A. Hassan. (2017). “Production of Paclitaxel with Anticancer Activity by Two Local Fungal Endophytes, Aspergillus fumigatus and Alternaria tenuissima.”: 5831–46. | es_CO |
dc.relation.references | Joly, Carlos A., Hadd, Célio F. B., Verdade, Luciano M., Cabral, de Oliveira Mariana, Da Silva, Bolzani Vanderlan, & Berlinck R. (2011). Diagnóstico Da Pesquisa Em Biodiversidade No Brasil. 89: 114-133. | es_CO |
dc.relation.references | Kandpal, K. C., Jain, D. A., Kumar, U., Tripathi, Rashmi, & Kumar, T Siva. (2012). “Isolation and Screening of Endophytic Actinomycetes Producing Antibacterial Compound from Citrus aurantifolia Fruit.” 2(5): 1733–37. | es_CO |
dc.relation.references | Kusari, Souvik, Satpal Singh, & Chelliah Jayabaskaran. (2014). “Biotechnological Potential of Plant-Associated Endophytic Fungi: Hope versus Hype.” Trends in Biotechnology 32(6): 297–303. http://dx.doi.org/10.1016/j.tibtech.2014.03.009. | es_CO |
dc.relation.references | Lane, D. J.; Pace, B.; Olsen, G. J.; Stahl, D. A.; Sogin, M. L.; Pace, N. R. (1985). Rapid determination of 16S ribosomal RNA sequences for phylogenetic analysis. Proceedings of the National Academy of Sciences, 82: 6955-6959 | es_CO |
dc.relation.references | Materic, D., Bruhn, D., Turner, C., Morgan, G., Mason, N., & Gauci, V. (2015). “METHODS IN PLANT FOLIAR VOLATILE ORGANIC COMPOUNDS RESEARCH.” Applications in Plant Sciences 3: 1–10. | es_CO |
dc.relation.references | Morath, Shannon U., Hung, R. & Bennett, J. (2012). “Fungal Volatile Organic Compounds: A Review with Emphasis on Their Biotechnological Potential.” Fungal Biology Reviews 26(2–3): 73–83. http://dx.doi.org/10.1016/j.fbr.2012.07.001. | es_CO |
dc.relation.references | O’Donnell, K., Cigelnik, E., Weber, N. S., & Trappe, J. M. (1997). Phylogenetic Relationships among Ascomycetous Truffles and the True and False Morels Inferred from 18S and 28S Ribosomal DNA Sequence Analysis. Mycologia, 89(1), 48–65. | es_CO |
dc.relation.references | Okeke, M. J.; Iroegbu, C. U.; Eze, E. N.; Okoli, A. S., & Esimone, C. O., (2001). Evaluation of extracts of the root of Landol phiaowerrience for antibacterial activity. Journal of Ethnopharmacology, 78: 119-127 | es_CO |
dc.relation.references | Parafati, L., Vitale, A., Restuccia, C., & Cirvilleri, G. (2016). “Performance Evaluation of Volatile Organic Compounds by Antagonistic Yeasts Immobilized on Hydrogel Spheres against Gray, Green and Blue Postharvest Decays.” Food Microbiology. http://dx.doi.org/10.1016/j.fm.2016.11.021. | es_CO |
dc.relation.references | Park, Eui-ho, Hanhong, B., Woo, Tae Park, Yon Bok Kim, Soo Cheon Chae & Sang Un Park. (2012). “Improved Shoot Organogenesis of Gloxinia (Sinningia speciosa) Using Silver Nitrate and Putrescine Treatment.” 5(1): 6–9. | es_CO |
dc.relation.references | Powell, J., & Klironomos J. (2007). “The Ecology of Plant–Microbial Mutualisms.”5: 12-34. | es_CO |
dc.relation.references | Prior, R.L., Hoang, H., Gu, L., Wu, X., Bacchiocca, M., Howard, L., Hampsch-Woodill, M., Huang, D., Ou, B., & Jacob, R. (2003). Assays for hydrophilic and lipophilic antioxidant capacity (oxygen radical absorbance capacity (ORACFL)) of plasma and other biological and food samples. Journal of Agricultural and Food Chemistry, 51: 3273-3279 p. | es_CO |
dc.relation.references | Raza, Waseem, Yuan, J., Ning, Ling, Qiwei, Huang, & Qirong, Shen. (2015). “Production of Volatile Organic Compounds by an Antagonistic Strain Paenibacillus polymyxa WR-2 in the Presence of Root Exudates and Organic Fertilizer and Their Antifungal Activity against Fusarium oxysporum F. sp. Niveum.” BIOLOGICAL CONTROL 80: 89–95. http://dx.doi.org/10.1016/j.biocontrol.2014.09.004 | es_CO |
dc.relation.references | Saitou, N. & Nei, M. (1987). The Neighbor-joining method: a new method for reconstructing phylogenetic trees. Molecular Biology and Evolution.4: 406-425. | es_CO |
dc.relation.references | Salvador, M. J.; Ferreira, E. O.; Pral, E. M. F.; Alfieri, S. C.; Albuquerque, S.; Ito, I. Y.; & Dias, D. A., (2002). Bioactivity of crude extracts and some constituents of Blutaparon portulacoides (Amaranthaceae). Phytomedicine, 9: 566-571. | es_CO |
dc.relation.references | Salvador, M.J., Pereira, P.S., França, S.C., Candido, R.C., Ito, I.Y., & Dias, D.A (2003). Comparative study of antibacterial and antifungal activity of callus culture and adults plants extracts from Alternanthera maritima (Amaranthaceae). Brazilian Journal of Microbiology, 34:131-136 p. | es_CO |
dc.relation.references | Salvador, M. J., Ferreira, E. O., Mertens-Talcott, S. U., De Castro, W. V., Butterweck, V., Derendorf, H., & Dias, D. A. (2006). Isolation and HPLC quantitative analysis of antioxidant flavonoids from Alternanthera tenella Colla. Zeitschrift Fur Naturforschung - Section C Journal of Biosciences, 61(1–2), 19–25. | es_CO |
dc.relation.references | Sánchez-Fernández, Rosa Elvira et al. (2013). “Hongos Endófitos: Fuente Potencial de Metabolitos Secundarios Bioactivos Con Utilidad En Agricultura Y Medicina.” 16(2): 132–46. | es_CO |
dc.relation.references | Selosse, M., Baudoin, E. & Vandenkoornhuyse, P. (2004). “Symbiotic Microorganisms, a Key for Ecological Success and Protection of Plants.” 327: 639–48. | es_CO |
dc.relation.references | Smedsgaard, J., (1997). Microescale extraction procedure for standardized screening of fungal metabolite production in cultures. Journal of Chromatography Products. 760: 264-270. | es_CO |
dc.relation.references | Sharma, M., Pinki, D., & Meenakshi, C. (2014). “Actinomycetes: Source, Identification, and Their Applications.” International Journal of Current Microbiology and Applied Sciences 3(2): 801–32. | es_CO |
dc.relation.references | Stach, J. E. M., Maldonado, L. A.; Ward, A. C., Goodfellow, M., & Bull, A. T., (2003). New primers for the class Actinobacteria: application to marine and terrestrial environments. Environmental Microbiology, 5: 828–841. | es_CO |
dc.relation.references | Strobel, Gary A. (2003). “Endophytes as Sources of Bioactive Products.” Microbes and Infection 5: 535–44. | es_CO |
dc.relation.references | Sun, G., Oide, S., Tanaka, E., Shimizu, K., & Tanaka, C. T. (2003). M. species separation in Curvularia "geniculata" group inferred from brnl gene sequences. Mycoscience 44: 239-244, 2. | es_CO |
dc.relation.references | Tawfike, A., Grainne, Abbott, Louise, Young, & RuAngelie Edrada-Ebel, (2017), Metabolomic-Guided Isolation of Bioactive Natural Products from Curvularia sp., an Endophytic Fungus of Terminalia laxiflora, Georg Thieme Verlag KG Stuttgart, 12:45-56. | es_CO |
dc.relation.references | Van, Soolingen D, Hermans, P.W.M, de Haas P.E.W, Soll, D.R., & Van Embdenl J.D.A. (1991). Occurrence and Stability of Insertion Sequences in Mycobacterium tuberculosis Complex Strains: Evaluation of an Insertion Sequence-Dependent DNA Polymorphism as a Tool in the Epidemiology of Tuberculosis. Journal of Clinical Microbiology, 29(11): 2578-2586 | es_CO |
dc.relation.references | Venugopalan, A., & Srivastava, S. (2015). “Endophytes as in vitro Production Platforms of High Value Plant Secondary Metabolites.” Biotechnology Advances. http://dx.doi.org/10.1016/j.biotechadv.2015.07.004. | es_CO |
dc.relation.references | Verdan, M., & Stefanello, A. (2012). “Secondary Metabolites and Biological Properties of Gesneriaceae Species.” 9: 2701–31. | es_CO |
dc.relation.references | White, T., Bruns, T., Lee, S., & Taylor, J. (1990). Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In: PCR Protocols: a guide to methods and applications. (Innis MA, Gelfand DH, Sninsky JJ, White TJ, eds). Academic Press, New York, USA, p,315–322. | es_CO |
dc.relation.references | Wu, X., Beecher, G.R., Holden, J.M., Haytowitz, D.B., Gebhardt, S.E., & Prior R.L. (2004). Lipophilic and hydrophilic capacities of common foods in the United States. Journal of Agricultural and Food Chemistry, 52: 4026-4037 p. | es_CO |
dc.relation.references | Zaitlin, David. (2012). “Research Article Intraspecific Diversity in Sinningia speciosa (Gesneriaceae: Sinningieae), and Possible Origins of the Cultivated Florist’ S Gloxinia.”: 1–17. | es_CO |
dc.relation.references | Zaiyou, J., Meng, L., & Hu, X. (2017). “An Endophytic Fungus Efficiently Producing Paclitaxel Isolated from Taxus wallichiana Var. Mairei.” 27 (April): 8–11. | es_CO |
dc.rights.accessrights | http://purl.org/coar/access_right/c_abf2 | es_CO |
dc.type.coarversion | http://purl.org/coar/resource_type/c_2df8fbb1 | es_CO |
Aparece en las colecciones: | Microbiología |
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