1,8-cineol |
19.36 |
Antiedematogenic, anti-inflammatory, gastroprotective, antimicrobial against S. aureus, E. coli and S. typhimurium and repellent against Sitophilus granarius and Sitophilus zeamai. They exhibit strong growth-inhibiting effect on plants and are involved in competition for plants. |
Hammer et al., 1999HAMMER, K.A.; CARSON, C.F.; RILEY, T.V. Antimicrobial activity of essential oils and other plant extracts. J. Appl. Microbiol., v.86, p.985-990, 1999.; Obeng-Ofori et al., 1997; Yoneyama and Natsume, 2010YONEYAMA, K.; NATSUME, M. Allelochemicals for plant-plant and plant-microbe interactions. Chemistry Biol., v.4, p.539-561, 2010. and Martins et al., 2017MARTINS, A.O.B.P.B.; RODRIGUES, L.B.; CESÁRIO, F.R.A.S. et al. Anti-edematogenic and anti-inflamatory activity os the essential oil from Croton rhamnifolioides leaves and its major constituent 1,8-cineole (eucalyptol). Biomed. Pharmacother., v.96, p.384-395, 2017.; Vidal et al., 2017VIDAL, C.S.; MARTINS, A.O.P.B.; SILVA, A.A. et al. Gastroprotective effect and mechanism of action of Croton rhamnifolioides essential oil in mice. Biomed. Pharmacother., v.89, p.47-55, 2017. |
Geraniol |
3.90 |
Antioxidant, antimicrobial activity (Candida and Staphylococcus sp) |
Farhath et al., 2013FARHATH, M.S.S.; VIJAYA, P.P.; VIMAL, M. Antioxidant activity of geraniol, geranial acetate, gingerol and eugenol. Res. Pharm., v.3, n.1, 2013.; Prasad and Muralidhara, 2017PRASAD, S.N.; MURALIDHARA, M. Analysis of the antioxidant activity of geraniol employing various in-vitro models: Relevance to neurodegeneration in diabetic neuropathy. Asian J. Pharm. Clin. Res., v.10, p.101-105, 2017.; Lira et al., 2020LIRA, M.H.P.; ANDRADE JÚNIOR, F.P.; MORAES, G.F.Q. et al. Atividade antimicrobiana do geraniol: uma revisão integrativa. J. Essential Oil Res., v.32, p.187-197, 2020.
|
α-longipinene |
19.00 |
Antifungal (C. albicans, in Caenorhabditis elegans and Aspergillus niger) |
Sakata and Miyazawa, 2010SAKATA, K.; MIYAZAWA, M. Regioselective oxidation of (+) -α-longipinene by Aspergillus niger. J. Oleo Sci., v.59, p.261-265, 2010.; Manoharan et al., 2017MANOHARAN, R.K.; LEE, J.H.; KIM, Y.G. et al. Efeitos inibitórios dos óleos essenciais α-longipineno e linalol na formação de biofilme e crescimento hifal de Candida albicans. Biofouling , v.33, p.143-155, 2017.
|
Longifolene |
4.23 |
Anti-inflammatory, antimicrobial (Staphylococcus aureus and Escherichia coli), antitumoral tumor cell lines A-549 |
Bourgou et al., 2010BOURGOU, S.; PICHETTE, A.; MARZOUK, B.; LEGAULT, J. Bioactivities of black cumin essential oil and its main terpenes from Tunisia. South Afr. J. Botany, v.76, p.210-216, 2010.
|
Trans-caryophyllene |
3.35 |
Anti-inflammatory, antispasmodic |
Fernandes et al., 2007FERNANDES, E.S.; PASSOS, G.F.; MEDEIROS, R. et al. Anti-inflammatory effects of compounds alpha-humulene and (−)-trans-caryophyllene isolated from the essential oil of Cordia verbenacea. Eur. J. Pharmacol., v.569, p.228-236, 2007.; Silva et al., 2012SILVA, L.P.; MAIA, P.V.M.; TEÓFILO, T.M.N.G. et al. Trans-caryophyllene, a natural sesquiterpene, causes tracheal smooth muscle relaxation through blockade of voltage-dependent Ca2+ channels. Molecules, v.17, p.11965-11977, 2012.
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