Dezembro 2024 vol. 11 num. 2 - X Simpósio Internacional de Inovação e Tecnologia

Completo - Open Access.

Idioma principal | Segundo idioma

Phylogenetic Analysis: An Auxiliary Tool For The Study Of Molecular Identification Of Plants

Phylogenetic Analysis: An Auxiliary Tool For The Study Of Molecular Identification Of Plants

Sacramento, Cibele Vale ; Guimarães, Ilze Santos ; Alves, Raíssa Raquel Oliveira ; Sacramento, Sofia Vale ; Chagas, Yasmin Malta ; Jesus, Hendor Neves Ribeiro de ; Vale, Tatiana Oliveira do ; Pereira, Érica Patrícia Lima ; Souza, Jessica Teles ;

Completo:

"This work aims to validate the phylogenetic analysis as a tool in the molecular identification of plants to prevent potential health risks from the inappropriate and unsupervised use of medicinal plants. The methodology used involves creating a private, manually curated database to identify herbs by building a phylogenetic tree using the maximum likelihood method. Seven commonly marketed medicinal plants and others with similar phenotypic and genetic characteristics were selected and researched, whether or not they belonged to the same genus as those used as a reference. In total, the tree showed 29 different genera."

Completo:

"This work aims to validate the phylogenetic analysis as a tool in the molecular identification of plants to prevent potential health risks from the inappropriate and unsupervised use of medicinal plants. The methodology used involves creating a private, manually curated database to identify herbs by building a phylogenetic tree using the maximum likelihood method. Seven commonly marketed medicinal plants and others with similar phenotypic and genetic characteristics were selected and researched, whether or not they belonged to the same genus as those used as a reference. In total, the tree showed 29 different genera."

Download (PDF)

Palavras-chave: Molecular analysis; Phylogenetics; Phytotherapy;,

Palavras-chave: Molecular analysis; Phylogenetics; Phytotherapy;,

DOI: 10.5151/siintec2024-383503

Referências bibliográficas
  • [1] "¹ CALIXTO, J. B. Efficacy, safety, quality control, marketing and regulatory guidelines
  • [2] for herbal medicines. Brazilian Journal of Medical and Biological Research, v. 33, n.
  • [3] 2, p. 179-189, Feb. 2000. Available at:
  • [4] https://doi.org/10.1590/s0100-879x200000020000 Accessed on: June 21, 202
  • [5] ² Silveira, Pf; Bandeira, Mam; Arrais, Psd. Farmacovigilância e reações adversas às
  • [6] plantas medicinais e fitoterápicos: uma realidade. Revista Brasileira de
  • [7] Farmacognosia Brazilian Journal of Pharmacognosy 18(4): 618-626, 2008.
  • [8] ³ Rocha, Francisco Angelo Gurgel da. Diagnóstico da comercialização de produtos
  • [9] da medicina popular em feiras livres do semiárido do Rio Grande do Norte:
  • [10] avaliações socioeconômicas e sanitárias, com proposta de legislação específica.
  • [11] 2015. Universidade Federal do Rio Grande do Norte, [s. l.], 2015. Available at:
  • [12] http://repositorio.ufrn.br/handle/123456789/19915. Accessed 13 jun. 2024.
  • [13] ⁴ Pereira, Paloma de Souza; Paula, Livia Loami Ruyz Jorge de. Ações terapêuticas
  • [14] do capim-santo: uma revisão de literatura. Revista Saúde em Foco, n. 10, p.
  • [15] 259-263, 2018. Available at :
  • [16] https://portal.unisepe.com.br/unifia/saude-em-foco/ano-2018/. Accessed 13 jun.
  • [17] 2024.
  • [18] ⁵ Silva, Cristiane Thalita dos Santos. EFEITO DO ÓLEO DE CITRONELA
  • [19] (Cymbopogon winterianus JOWITT) SOBRE A HISTOFISIOLOGIA DIGESTIVA E
  • [20] REPRODUTIVA DE Spodoptera frugiperda (J.E. SMITH) (LEPIDOPTERA:
  • [21] NOCTUIDAE). 2014. 83 p. Dissertação de Mestrado - Universidade Federal Rural de
  • [22] Pernambuco, RECIFE - PE. 2014. Accessed 13 jun. 2024.⁶ Mahgoub, Y. A. et al. Plant DNA barcoding and metabolomics for comprehensive
  • [23] discrimination of German Chamomile from its poisonous adulterants for food safety.
  • [24] Fosse Control, v. 136, p. 108840, jun. 2022.
  • [25] ⁷ FILIP SIBUL et al. HPLC-MS/MS profiling of wild-growing scentless chamomile.
  • [26] Acta Chromatographica, v. 32, n. 2, p. 86-94, 1 jun. 2020. Available at:
  • [27] https://doi.org/10.1556/1326.2019.00546. Accessed on: 13 Jun. 2024.
  • [28] ⁸ DAI, Y.-L et al. Chamomile: A Review of Its Traditional Uses, Chemical
  • [29] Constituents, Pharmacological Activities and Quality Control Studies. Molecules, c.
  • [30] 28, n. 1, p. 133, 23 dez. 2022. Available at:
  • [31] https://doi.org/10.3390/molecules28010133. Accessed on: 13 Jun. 2024.
  • [32] ⁹ Sharifi-Rad, Javad, et al. ""Malva Species: Insights on It's Chemical Composition
  • [33] towards Pharmacological Applications."" Phototherapy Research, vol. 34, no. 3, 11
  • [34] Nov. 2019, pp. 546-567. Available at: https://doi.org/10.1002/ptr.6550.Accessed 17
  • [35] Aug. 2023
  • [36] ¹⁰ Vagula, J.M. et al, (2018) ""Analysis os Solanum Americanum Mill. by Ultrafast
  • [37] Liquid Chromatography with Diode Array and Time-Of-flight Mass Spectrometry
  • [38] Detection with Evaluation of Anti-inflammatory Properties in Rodent Models,
  • [39] Analytical letters, 51(13), pp. 1973-1985. Accessed 17 Aug. 2023
  • [40] ¹¹ Helmy, Wafaa, et al. ""Chemical Composition and Biological Activity of Aqueous and
  • [41] Methanolic Extracts of Thyme (Thymus Vulgaris)."" International Journal of Advanced
  • [42] Research, vol. 3, no. 9, 2015, pp. 1285-1305,
  • [43] www.journalijar.com/uploads/623_IJAR-7214.pdf. Accessed 22 July 2023.
  • [44] ¹² Rojas, Diego Arratia; Contreras, JProaviera Villalobos. Propriedades antioxidantes,
  • [45] antibacteriana y antiinflamatoria de rosa mosqueta. 2020,
  • [46] dspace.utalca.cl/handle/1950/12418. Accessed 17 Aug. 2023.
  • [47] ¹³ Espinoza, T. et al. Physical and chemical properties importance of Rose hip (R.
  • [48] canina, R. rubiginosa): a review. Scientia agropecuaria, v. 7, n. 1, p. 67-78, 16 abr.
  • [49] 2016. Available at: https://doi.org/10.17268/sci.agropecu.2016.01.07. Accessed 17
  • [50] Aug. 2023.
  • [51] ¹⁴ Benson, D. A. GenBank. Nucleic acids research, v. 33, Database issue, p.
  • [52] D34—D38, 17 dez. 2004. Disponível em: https://doi.org/10.1093/nar/gki063.
  • [53] Accessed 17 Aug. 2023. ¹⁵ Johnson, L. A.; Soltis, D. E. matK DNA sequences and phylogenetic reconstruction
  • [54] in Saxifragaceae s. str. Systematic Botany, p. 143-156, 1994. Accessed 13 June
  • [55] 2024.
  • [56] ¹⁶ Rozemblatt, Noah, and Maia VÍTOR HUGO. EVOLUÇÃO MOLECULAR DOS
  • [57] GENES RBCL E MATK EM LEGUMINOSAE. 2018,
  • [58] www.puc-rio.br/ensinopesq/ccpg/pibic/relatorio_resumo2019/download/resumos/CC
  • [59] BS/BIO/BIO_Noah%20Rozemblatt.pdf. Accessed 13 June 2024.
  • [60] ¹⁷ Boratyn, G. M. et al. BLAST: a more efficient report with usability improvements.
  • [61] Nucleic Acids Research, v. 41, n. W1, p. W29–W33, 1 July. 2013. Accessed 13 Nov.
  • [62] 2023.
  • [63] ¹⁸ Katoh, K. Mafft: a novel method for rapid multiple sequence alignment based on
  • [64] fast Fourier transform. Nucleic Acids Research, v. 30, n. 14, p. 3059–3066, 15 July.
  • [65] 2002. Accessed 13 Nov. 2023.
  • [66] ¹⁹ Sofi, M. Y.; Shafi, A.; Masoodi, K. Z. Chapter 6 - Multiple sequence alignment.
  • [67] Available at:
  • [68] .
  • [69] Accessed 13 Nov. 2023.
  • [70] ²⁰ Cordeiro, Joel da Silva. Caracterização molecular e análise filogenética dos vírus
  • [71] dengue circulantes na cidade de boa vista, roraima, brasil. v. 3, n. 4, p. 12–69,
  • [72] 2010.Accessed 13 June 2024.
  • [73] ²¹ Guindon, S. et al. Phyml Online--a web server for fast maximum likelihood-based
  • [74] phylogenetic inference. Nucleic Acids Research, v. 33, Web Server, p. W557—W559,
  • [75] 1 Jul. 2005. Available at: https://doi.org/10.1093/nar/gki352. Accessed 13 Nov. 2023.
  • [76] ²² Letunic, Ivica, and Peer bork. “Interactive Tree of Life (ITOL) V5: An Online Tool for
  • [77] Phylogenetic Tree Display and Annotation.” Nucleic Acids Research, vol. 49, no. W1,
  • [78] 22 Apr. 2021, pp. W293–W296, https://doi.org/10.1093/nar/gkab301. Accessed 13
  • [79] June 2024.
  • [80] 6. OTHER IN"
Como citar:

Sacramento, Cibele Vale; Guimarães, Ilze Santos; Alves, Raíssa Raquel Oliveira; Sacramento, Sofia Vale; Chagas, Yasmin Malta; Jesus, Hendor Neves Ribeiro de; Vale, Tatiana Oliveira do; Pereira, Érica Patrícia Lima; Souza, Jessica Teles; "Phylogenetic Analysis: An Auxiliary Tool For The Study Of Molecular Identification Of Plants", p. 1-10 . In: . São Paulo: Blucher, 2024.
ISSN 2357-7592, DOI 10.5151/siintec2024-383503

últimos 30 dias | último ano | desde a publicação


downloads


visualizações


indexações