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Natural Product Communications. Natural Product Communications. Westerville: Instituto de Química de São Carlos, Universidade de São Paulo. Disponível em: https://repositorio.usp.br/directbitstream/4675875f-04cd-415d-aeca-aa079e84d60c/P20000.pdf. Acesso em: 03 jun. 2024. , 2019
APA
Natural Product Communications. (2019). Natural Product Communications. Natural Product Communications. Westerville: Instituto de Química de São Carlos, Universidade de São Paulo. Recuperado de https://repositorio.usp.br/directbitstream/4675875f-04cd-415d-aeca-aa079e84d60c/P20000.pdf
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CHIBAS, Leniher Castan et al. Polyalthic acid in polymeric nanoparticles causes selective growth inhibition and genotoxicity in MCF-7 cells. Natural Product Communications, v. 14, n. 4, p. [7] , 2019Tradução . . Disponível em: https://doi.org/10.1177/1934578x19842702. Acesso em: 03 jun. 2024.
APA
Chibas, L. C., Cintra, P. P., Moreira, M. R., Goulart, M. O., Ambrósio, S. R., Veneziani, R. C. S., et al. (2019). Polyalthic acid in polymeric nanoparticles causes selective growth inhibition and genotoxicity in MCF-7 cells. Natural Product Communications, 14( 4), [7] . doi:10.1177/1934578x19842702
NLM
Chibas LC, Cintra PP, Moreira MR, Goulart MO, Ambrósio SR, Veneziani RCS, Bastos JK, Santos RA dos. Polyalthic acid in polymeric nanoparticles causes selective growth inhibition and genotoxicity in MCF-7 cells [Internet]. Natural Product Communications. 2019 ; 14( 4): [7] .[citado 2024 jun. 03 ] Available from: https://doi.org/10.1177/1934578x19842702
Vancouver
Chibas LC, Cintra PP, Moreira MR, Goulart MO, Ambrósio SR, Veneziani RCS, Bastos JK, Santos RA dos. Polyalthic acid in polymeric nanoparticles causes selective growth inhibition and genotoxicity in MCF-7 cells [Internet]. Natural Product Communications. 2019 ; 14( 4): [7] .[citado 2024 jun. 03 ] Available from: https://doi.org/10.1177/1934578x19842702
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SILVA, Eliane O et al. Antifungal and cytotoxic assessment of lapachol derivatives produced by fungal biotransformation. Natural Product Communications, v. 11, n. 1, p. 95-98, 2016Tradução . . Acesso em: 03 jun. 2024.
APA
Silva, E. O., Ruano-González, A., Santos, R. A. dos, Sánchez-Maestre, R., Furtado, N. A. J. C., Collado, I. G., & Aleu, J. (2016). Antifungal and cytotoxic assessment of lapachol derivatives produced by fungal biotransformation. Natural Product Communications, 11( 1), 95-98.
NLM
Silva EO, Ruano-González A, Santos RA dos, Sánchez-Maestre R, Furtado NAJC, Collado IG, Aleu J. Antifungal and cytotoxic assessment of lapachol derivatives produced by fungal biotransformation. Natural Product Communications. 2016 ; 11( 1): 95-98.[citado 2024 jun. 03 ]
Vancouver
Silva EO, Ruano-González A, Santos RA dos, Sánchez-Maestre R, Furtado NAJC, Collado IG, Aleu J. Antifungal and cytotoxic assessment of lapachol derivatives produced by fungal biotransformation. Natural Product Communications. 2016 ; 11( 1): 95-98.[citado 2024 jun. 03 ]
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TOZATTI, Marcos G. et al. Activity of the Lichen Usnea steineri and its major metabolites against gram-positive, multidrug-resistant bacteria. Natural Product Communications, v. 11, n. 4, p. 493-496, 2016Tradução . . Acesso em: 03 jun. 2024.
APA
Tozatti, M. G., Ferreira, D. S., Flauzino, L. G. B., Moraes, T. da S., Martins, C. H. G., Groppo, M., et al. (2016). Activity of the Lichen Usnea steineri and its major metabolites against gram-positive, multidrug-resistant bacteria. Natural Product Communications, 11( 4), 493-496.
NLM
Tozatti MG, Ferreira DS, Flauzino LGB, Moraes T da S, Martins CHG, Groppo M, Silva MLA e, Januário AH, Pauletti PM, Cunha WR. Activity of the Lichen Usnea steineri and its major metabolites against gram-positive, multidrug-resistant bacteria. Natural Product Communications. 2016 ; 11( 4): 493-496.[citado 2024 jun. 03 ]
Vancouver
Tozatti MG, Ferreira DS, Flauzino LGB, Moraes T da S, Martins CHG, Groppo M, Silva MLA e, Januário AH, Pauletti PM, Cunha WR. Activity of the Lichen Usnea steineri and its major metabolites against gram-positive, multidrug-resistant bacteria. Natural Product Communications. 2016 ; 11( 4): 493-496.[citado 2024 jun. 03 ]
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MELO, Nathalya Isabel de et al. Antischistosomal and cytotoxic effects of the essential oil of Tetradenia riparia (Lamiaceae). Natural Product Communications, v. 10, n. 9, p. 1627-1630, 2015Tradução . . Disponível em: https://www.researchgate.net/publication/283726352_Antischistosomal_and_Cytotoxic_Effects_of_the_Essential_Oil_of_Tetradenia_riparia_Lamiaceae. Acesso em: 03 jun. 2024.
APA
Melo, N. I. de, Mantovani, A. L. L., Oliveira, P. F. de, Groppo, M., Silva Filho, A. A. da, Rodrigues, V., et al. (2015). Antischistosomal and cytotoxic effects of the essential oil of Tetradenia riparia (Lamiaceae). Natural Product Communications, 10( 9), 1627-1630. Recuperado de https://www.researchgate.net/publication/283726352_Antischistosomal_and_Cytotoxic_Effects_of_the_Essential_Oil_of_Tetradenia_riparia_Lamiaceae
NLM
Melo NI de, Mantovani ALL, Oliveira PF de, Groppo M, Silva Filho AA da, Rodrigues V, Cunha WR, Tavares DC, Magalhães LG, Crotti AEM. Antischistosomal and cytotoxic effects of the essential oil of Tetradenia riparia (Lamiaceae) [Internet]. Natural Product Communications. 2015 ; 10( 9): 1627-1630.[citado 2024 jun. 03 ] Available from: https://www.researchgate.net/publication/283726352_Antischistosomal_and_Cytotoxic_Effects_of_the_Essential_Oil_of_Tetradenia_riparia_Lamiaceae
Vancouver
Melo NI de, Mantovani ALL, Oliveira PF de, Groppo M, Silva Filho AA da, Rodrigues V, Cunha WR, Tavares DC, Magalhães LG, Crotti AEM. Antischistosomal and cytotoxic effects of the essential oil of Tetradenia riparia (Lamiaceae) [Internet]. Natural Product Communications. 2015 ; 10( 9): 1627-1630.[citado 2024 jun. 03 ] Available from: https://www.researchgate.net/publication/283726352_Antischistosomal_and_Cytotoxic_Effects_of_the_Essential_Oil_of_Tetradenia_riparia_Lamiaceae
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AREVABINI, Cynthia Aparecida Montagneri et al. Antifungal Activity of Metabolites from the Marine Sponges Amphimedon sp. and Monanchora arbuscula against Aspergillus flavus Strains Isolated from Peanuts (Arachis hypogaea). Natural Product Communications, v. 9, n. 1, p. 33-36, 2014Tradução . . Disponível em: https://repositorio.usp.br/directbitstream/2fb3d1b2-aacb-4fab-a937-78834f858da8/P14864.pdf. Acesso em: 03 jun. 2024.
APA
Arevabini, C. A. M., Crivelenti, yasmin D., Abreu, M. H. de, Bitencourt, T. A., Santos, M. F. C., Berlinck, R. G. de S., et al. (2014). Antifungal Activity of Metabolites from the Marine Sponges Amphimedon sp. and Monanchora arbuscula against Aspergillus flavus Strains Isolated from Peanuts (Arachis hypogaea). Natural Product Communications, 9( 1), 33-36. Recuperado de https://repositorio.usp.br/directbitstream/2fb3d1b2-aacb-4fab-a937-78834f858da8/P14864.pdf
NLM
Arevabini CAM, Crivelenti yasmin D, Abreu MH de, Bitencourt TA, Santos MFC, Berlinck RG de S, Hajdu E, Beleboni R de O, Fachin AL, Marins M. Antifungal Activity of Metabolites from the Marine Sponges Amphimedon sp. and Monanchora arbuscula against Aspergillus flavus Strains Isolated from Peanuts (Arachis hypogaea) [Internet]. Natural Product Communications. 2014 ; 9( 1): 33-36.[citado 2024 jun. 03 ] Available from: https://repositorio.usp.br/directbitstream/2fb3d1b2-aacb-4fab-a937-78834f858da8/P14864.pdf
Vancouver
Arevabini CAM, Crivelenti yasmin D, Abreu MH de, Bitencourt TA, Santos MFC, Berlinck RG de S, Hajdu E, Beleboni R de O, Fachin AL, Marins M. Antifungal Activity of Metabolites from the Marine Sponges Amphimedon sp. and Monanchora arbuscula against Aspergillus flavus Strains Isolated from Peanuts (Arachis hypogaea) [Internet]. Natural Product Communications. 2014 ; 9( 1): 33-36.[citado 2024 jun. 03 ] Available from: https://repositorio.usp.br/directbitstream/2fb3d1b2-aacb-4fab-a937-78834f858da8/P14864.pdf
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GRECCO, Simone dos S et al. Anti-trypanosomal phenolic derivatives from Baccharis uncinella C. DC. (Asteraceae). Natural Product Communications, v. 9, n. 2, p. 171-173, 2014Tradução . . Disponível em: https://www.researchgate.net/publication/261288996_Anti-trypanosomal_Phenolic_Derivatives_from_Baccharis_uncinella. Acesso em: 03 jun. 2024.
APA
Grecco, S. dos S., Félix, M. J. P., Lago, J. H. G., Pinto, É. G., Tempone, A. G., Romoff, P., et al. (2014). Anti-trypanosomal phenolic derivatives from Baccharis uncinella C. DC. (Asteraceae). Natural Product Communications, 9( 2), 171-173. Recuperado de https://www.researchgate.net/publication/261288996_Anti-trypanosomal_Phenolic_Derivatives_from_Baccharis_uncinella
NLM
Grecco S dos S, Félix MJP, Lago JHG, Pinto ÉG, Tempone AG, Romoff P, Ferreira MJP, Sartorelli P. Anti-trypanosomal phenolic derivatives from Baccharis uncinella C. DC. (Asteraceae) [Internet]. Natural Product Communications. 2014 ; 9( 2): 171-173.[citado 2024 jun. 03 ] Available from: https://www.researchgate.net/publication/261288996_Anti-trypanosomal_Phenolic_Derivatives_from_Baccharis_uncinella
Vancouver
Grecco S dos S, Félix MJP, Lago JHG, Pinto ÉG, Tempone AG, Romoff P, Ferreira MJP, Sartorelli P. Anti-trypanosomal phenolic derivatives from Baccharis uncinella C. DC. (Asteraceae) [Internet]. Natural Product Communications. 2014 ; 9( 2): 171-173.[citado 2024 jun. 03 ] Available from: https://www.researchgate.net/publication/261288996_Anti-trypanosomal_Phenolic_Derivatives_from_Baccharis_uncinella
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KOSSUGA, Miriam Harumi et al. Two polyketides from a Co-culture of two marine-derived fungal strains. Natural Product Communications, v. 8, n. 6, p. 721-724, 2013Tradução . . Disponível em: https://repositorio.usp.br/directbitstream/29a6cfeb-c465-4c35-8969-5735ba3cff8d/P14439.pdf. Acesso em: 03 jun. 2024.
APA
Kossuga, M. H., Ferreira, A. C., Sette, L. D., & Berlinck, R. G. de S. (2013). Two polyketides from a Co-culture of two marine-derived fungal strains. Natural Product Communications, 8( 6), 721-724. Recuperado de https://repositorio.usp.br/directbitstream/29a6cfeb-c465-4c35-8969-5735ba3cff8d/P14439.pdf
NLM
Kossuga MH, Ferreira AC, Sette LD, Berlinck RG de S. Two polyketides from a Co-culture of two marine-derived fungal strains [Internet]. Natural Product Communications. 2013 ;8( 6): 721-724.[citado 2024 jun. 03 ] Available from: https://repositorio.usp.br/directbitstream/29a6cfeb-c465-4c35-8969-5735ba3cff8d/P14439.pdf
Vancouver
Kossuga MH, Ferreira AC, Sette LD, Berlinck RG de S. Two polyketides from a Co-culture of two marine-derived fungal strains [Internet]. Natural Product Communications. 2013 ;8( 6): 721-724.[citado 2024 jun. 03 ] Available from: https://repositorio.usp.br/directbitstream/29a6cfeb-c465-4c35-8969-5735ba3cff8d/P14439.pdf
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FURTADO, Ricardo Andrade et al. Microbial biotransformation of 16α,17-epoxy-ent-kaurane-19-oic acid by Beauveria sulfurescens ATCC 7159-F. Natural Product Communications, v. 8, n. 8, p. 1041-1044, 2013Tradução . . Acesso em: 03 jun. 2024.
APA
Furtado, R. A., Gunaherath, G. M. K. B., Bastos, J. K., & Gunatilaka, A. A. L. (2013). Microbial biotransformation of 16α,17-epoxy-ent-kaurane-19-oic acid by Beauveria sulfurescens ATCC 7159-F. Natural Product Communications, 8( 8), 1041-1044.
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BARROS, Letícia F. L et al. Essential Oil and other Constituents from Magnolia ovata Fruit. Natural Product Communications, v. 7, n. 10, p. 1365-1367, 2012Tradução . . Disponível em: https://www.researchgate.net/publication/233534409_Essential_Oil_and_other_Constituents_from_Magnolia_ovata_Fruit. Acesso em: 03 jun. 2024.
APA
Barros, L. F. L., Ehrenfried, C. A., Riva, D., Barison, A., Mello-Silva, R. de, & Stefanello, M. É. A. (2012). Essential Oil and other Constituents from Magnolia ovata Fruit. Natural Product Communications, 7( 10), 1365-1367. Recuperado de https://www.researchgate.net/publication/233534409_Essential_Oil_and_other_Constituents_from_Magnolia_ovata_Fruit
NLM
Barros LFL, Ehrenfried CA, Riva D, Barison A, Mello-Silva R de, Stefanello MÉA. Essential Oil and other Constituents from Magnolia ovata Fruit [Internet]. Natural Product Communications. 2012 ; 7( 10): 1365-1367.[citado 2024 jun. 03 ] Available from: https://www.researchgate.net/publication/233534409_Essential_Oil_and_other_Constituents_from_Magnolia_ovata_Fruit
Vancouver
Barros LFL, Ehrenfried CA, Riva D, Barison A, Mello-Silva R de, Stefanello MÉA. Essential Oil and other Constituents from Magnolia ovata Fruit [Internet]. Natural Product Communications. 2012 ; 7( 10): 1365-1367.[citado 2024 jun. 03 ] Available from: https://www.researchgate.net/publication/233534409_Essential_Oil_and_other_Constituents_from_Magnolia_ovata_Fruit
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SOUSA, João Paulo B. et al. A validated chromatographic method for the determination of flavonoids in Copaifera langsdorfii by HPLC. Natural Product Communications, v. 7, n. 1, p. 25-28, 2012Tradução . . Acesso em: 03 jun. 2024.
APA
Sousa, J. P. B., Brancalion, A. P. S., Groppo Júnior, M., & Bastos, J. K. (2012). A validated chromatographic method for the determination of flavonoids in Copaifera langsdorfii by HPLC. Natural Product Communications, 7( 1), 25-28.
NLM
Sousa JPB, Brancalion APS, Groppo Júnior M, Bastos JK. A validated chromatographic method for the determination of flavonoids in Copaifera langsdorfii by HPLC. Natural Product Communications. 2012 ; 7( 1): 25-28.[citado 2024 jun. 03 ]
Vancouver
Sousa JPB, Brancalion APS, Groppo Júnior M, Bastos JK. A validated chromatographic method for the determination of flavonoids in Copaifera langsdorfii by HPLC. Natural Product Communications. 2012 ; 7( 1): 25-28.[citado 2024 jun. 03 ]
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SILVA, Joyce Kelly R. de et al. Antioxidant capacity and larvicidal and antifungal activities of essential oils and extracts from Piper krukoffii. Natural Product Communications, v. 6, n. 9, p. 1361-1366, 2011Tradução . . Acesso em: 03 jun. 2024.
APA
Silva, J. K. R. de, Andrade, E. H. A., Kato, M. J., Carreira, L. M. M., Guimarães, E. F., & Maia, J. G. S. (2011). Antioxidant capacity and larvicidal and antifungal activities of essential oils and extracts from Piper krukoffii. Natural Product Communications, 6( 9), 1361-1366.
NLM
Silva JKR de, Andrade EHA, Kato MJ, Carreira LMM, Guimarães EF, Maia JGS. Antioxidant capacity and larvicidal and antifungal activities of essential oils and extracts from Piper krukoffii. Natural Product Communications. 2011 ; 6( 9): 1361-1366.[citado 2024 jun. 03 ]
Vancouver
Silva JKR de, Andrade EHA, Kato MJ, Carreira LMM, Guimarães EF, Maia JGS. Antioxidant capacity and larvicidal and antifungal activities of essential oils and extracts from Piper krukoffii. Natural Product Communications. 2011 ; 6( 9): 1361-1366.[citado 2024 jun. 03 ]
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MEDEIROS, Maria Rita Furquini et al. Antimicrobial activities of indole alkaloids from Tabernaemontana catharinensis. Natural Product Communications, v. 6, n. 2, p. 193-196, 2011Tradução . . Acesso em: 03 jun. 2024.
APA
Medeiros, M. R. F., Prado, L. A. de M., Fernandes, V. C., Figueiredo, S. S., Coppede, J., Martins, J., et al. (2011). Antimicrobial activities of indole alkaloids from Tabernaemontana catharinensis. Natural Product Communications, 6( 2), 193-196.
NLM
Medeiros MRF, Prado LA de M, Fernandes VC, Figueiredo SS, Coppede J, Martins J, Fiori GML, Martinez-Rossi NM, Beleboni RO, Contini SHT, Pereira PS, Fachin AL. Antimicrobial activities of indole alkaloids from Tabernaemontana catharinensis. Natural Product Communications. 2011 ; 6( 2): 193-196.[citado 2024 jun. 03 ]
Vancouver
Medeiros MRF, Prado LA de M, Fernandes VC, Figueiredo SS, Coppede J, Martins J, Fiori GML, Martinez-Rossi NM, Beleboni RO, Contini SHT, Pereira PS, Fachin AL. Antimicrobial activities of indole alkaloids from Tabernaemontana catharinensis. Natural Product Communications. 2011 ; 6( 2): 193-196.[citado 2024 jun. 03 ]
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NAGAI, Alice e DUARTE, Lígia M. L. e SANTOS, Deborah Yara Alves Cursino dos. Influence of viral infection on essential oil composition of Ocimum basilicum (Lamiaceae). Natural Product Communications, v. 6, n. 8, p. 1189-1192, 2011Tradução . . Acesso em: 03 jun. 2024.
APA
Nagai, A., Duarte, L. M. L., & Santos, D. Y. A. C. dos. (2011). Influence of viral infection on essential oil composition of Ocimum basilicum (Lamiaceae). Natural Product Communications, 6( 8), 1189-1192.
NLM
Nagai A, Duarte LML, Santos DYAC dos. Influence of viral infection on essential oil composition of Ocimum basilicum (Lamiaceae). Natural Product Communications. 2011 ; 6( 8): 1189-1192.[citado 2024 jun. 03 ]
Vancouver
Nagai A, Duarte LML, Santos DYAC dos. Influence of viral infection on essential oil composition of Ocimum basilicum (Lamiaceae). Natural Product Communications. 2011 ; 6( 8): 1189-1192.[citado 2024 jun. 03 ]
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PLAINCHONT, B et al. New improvements in automatic structure elucidation using the LSD (Logic for Structure Determination) and the SISTEMAT expert systems. Natural Product Communications, v. 5, n. 5, p. 763-770, 2010Tradução . . Acesso em: 03 jun. 2024.
APA
Plainchont, B., Nuzillard, J. M., Rodrigues, G. V., Ferreira, M. J., Scotti, M. T., & Emerenciano, V. de P. (2010). New improvements in automatic structure elucidation using the LSD (Logic for Structure Determination) and the SISTEMAT expert systems. Natural Product Communications, 5( 5), 763-770.
NLM
Plainchont B, Nuzillard JM, Rodrigues GV, Ferreira MJ, Scotti MT, Emerenciano V de P. New improvements in automatic structure elucidation using the LSD (Logic for Structure Determination) and the SISTEMAT expert systems. Natural Product Communications. 2010 ; 5( 5): 763-770.[citado 2024 jun. 03 ]
Vancouver
Plainchont B, Nuzillard JM, Rodrigues GV, Ferreira MJ, Scotti MT, Emerenciano V de P. New improvements in automatic structure elucidation using the LSD (Logic for Structure Determination) and the SISTEMAT expert systems. Natural Product Communications. 2010 ; 5( 5): 763-770.[citado 2024 jun. 03 ]
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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JABOR, Valquíria Aparecida Polisel et al. LC-MS-MS identification and determination of the flavone-C-glucoside vicenin-2 in rat plasma samples following intraperitoneal administration of Lychnophora extract. Natural Product Communications, v. 5, n. 5, p. 741-745, 2010Tradução . . Acesso em: 03 jun. 2024.
APA
Jabor, V. A. P., Soares, D. M., Diniz, A., Souza, G. E. P. de, & Lopes, N. P. (2010). LC-MS-MS identification and determination of the flavone-C-glucoside vicenin-2 in rat plasma samples following intraperitoneal administration of Lychnophora extract. Natural Product Communications, 5( 5), 741-745.
NLM
Jabor VAP, Soares DM, Diniz A, Souza GEP de, Lopes NP. LC-MS-MS identification and determination of the flavone-C-glucoside vicenin-2 in rat plasma samples following intraperitoneal administration of Lychnophora extract. Natural Product Communications. 2010 ; 5( 5): 741-745.[citado 2024 jun. 03 ]
Vancouver
Jabor VAP, Soares DM, Diniz A, Souza GEP de, Lopes NP. LC-MS-MS identification and determination of the flavone-C-glucoside vicenin-2 in rat plasma samples following intraperitoneal administration of Lychnophora extract. Natural Product Communications. 2010 ; 5( 5): 741-745.[citado 2024 jun. 03 ]
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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SAKAMOTO, Humberto Takeshi et al. Sesquiterpenes lactones and flavonoids from Eremanthus argenteus (Asteraceae). Natural Product Communications, v. 5, n. 5, p. 681-684, 2010Tradução . . Acesso em: 03 jun. 2024.
APA
Sakamoto, H. T., Laudares, E. P., Crotti, A. E. M., Lopes, N. P., Vichnewski, W., Lopes, J. L. C., & Heleno, V. C. G. (2010). Sesquiterpenes lactones and flavonoids from Eremanthus argenteus (Asteraceae). Natural Product Communications, 5( 5), 681-684.
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CALVO, Tamara R. et al. Phenolic compounds in leaves of Alchornea triplinervia: anatomical localization, mutagenicity, and antibacterial activity. Natural Product Communications, v. 5, n. 8, p. 1225-1232, 2010Tradução . . Acesso em: 03 jun. 2024.
APA
Calvo, T. R., Demarco, D., Santos, F. V., Moraes, H. P., Bauab, T. M., Varanda, E. A., et al. (2010). Phenolic compounds in leaves of Alchornea triplinervia: anatomical localization, mutagenicity, and antibacterial activity. Natural Product Communications, 5( 8), 1225-1232.
NLM
Calvo TR, Demarco D, Santos FV, Moraes HP, Bauab TM, Varanda EA, Colus IM de S, Vilegas W. Phenolic compounds in leaves of Alchornea triplinervia: anatomical localization, mutagenicity, and antibacterial activity. Natural Product Communications. 2010 ; 5( 8): 1225-1232.[citado 2024 jun. 03 ]
Vancouver
Calvo TR, Demarco D, Santos FV, Moraes HP, Bauab TM, Varanda EA, Colus IM de S, Vilegas W. Phenolic compounds in leaves of Alchornea triplinervia: anatomical localization, mutagenicity, and antibacterial activity. Natural Product Communications. 2010 ; 5( 8): 1225-1232.[citado 2024 jun. 03 ]
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COSTANTIN, Mara Beatriz et al. Computer-aided structure elucidation of neolignans. Natural Product Communications, v. 5, n. 5, p. 755-762, 2010Tradução . . Acesso em: 03 jun. 2024.
APA
Costantin, M. B., Ferreira, M. J., Rodrigues, G. V., & Emerenciano, V. de P. (2010). Computer-aided structure elucidation of neolignans. Natural Product Communications, 5( 5), 755-762.
NLM
Costantin MB, Ferreira MJ, Rodrigues GV, Emerenciano V de P. Computer-aided structure elucidation of neolignans. Natural Product Communications. 2010 ; 5( 5): 755-762.[citado 2024 jun. 03 ]
Vancouver
Costantin MB, Ferreira MJ, Rodrigues GV, Emerenciano V de P. Computer-aided structure elucidation of neolignans. Natural Product Communications. 2010 ; 5( 5): 755-762.[citado 2024 jun. 03 ]