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Bibliografia Auxiliar


AUSTEN, N. et al. The regulation of plant secondary metabolism in response to abiotic stress: interactions between heat shock and elevated CO2. Frontiers in Plant Science, v. 10, p. 1463, 2019.

BLASSIOLI‑MORAES, M. C.; BORGES, M.; MICHEREFF, M. F. F.; MAGALHÃES, D. M.; LAUMANN, R. A. Semiochemicals from plants and insects on the foraging behavior of Platygastridae egg parasitoids. Pesq. agropec. bras., Brasília, v.51, n.5, p. 454-464, 2016.

BORGES, J. S. Análise comparativa do proteoma e metaboloma de raízes de dois clones de E. grandis x E. camaldulensis, sendo um tolerante e um susceptível a condições de estresse hídrico. Dissertação de Mestrado apresentada à Escola Superior de Agricultura “Luiz de Queiroz”, USP, 199p. 2013.

CHAE, L.; KIM, T.; NILO-POYANCO, R.; RHEE, S. Y. Genomic Signatures of Specialized Metabolism in Plants. Science, v. 344, 2014.

DARKO,E.; HEYDARIZADEH, P.; SCHOEFS, B.; SABZALIAN, M. R. Photosynthesis under artificial light: the shift in primary and secondary metabolism. Phil. Trans. R. Soc. B, v. 369, 2017. http://dx.doi.org/10.1098/rstb.2013.0243

GERSHENZON, J.; CROTEAU, R. Terpenoids. Herbivores: Their interactions with secondary metabolites, Vol.1: The chemical participants, 2nd ed., G.A. Rosenthal.

GOBBO-NETO, L.; LOPES, N. P. Plantas medicinais: fatores de influência no conteúdo de metabólitos secundários. Quim. Nova, v. 30, n. 2, 374-381, 2007.

GUIMARÃES, A. C. et al. Antibacterial activity of terpenes and terpenoids present in essential oils. Molecules, v. 24, n. 13, p. 2471, 2019.

Holström, K.-O., Somersalo, S., Mandal, A., Palva, T. E., and Welin, B. (2000). Improved tolerance to salinity and low temperature in transgenic tobacco producing glycine betaine. J. Exp. Bot. 51, 177–185. doi: 10.1093/jexbot/51.343.177

HOPKINS J.; PARDO M.; BISCHOFF K. Serotonin syndrome from 5-Hydroxytryptophan supplement ingestion in a 9-month-old Labrador retriever. Journal of Medical Toxicology, v. 13, n. 2, p. 183-186, 2017.

HUANG, A. C.; OSBOURN, A. Plant terpenes that mediate below‐ground interactions: prospects for bioengineering terpenoids for plant protection. Pest management science, v. 75, n. 9, p. 2368-2377, 2019.

BANA, K.; YANO, M.; SAITO, K. Metabolome-genome-wide association study dissects genetic architecture for generating natural variation in rice secondary metabolism. The Plant Journal, v. 81, p. 13-23, 2015.

KHAN, M. A. et al. Plant cell nanomaterials interaction: Growth, physiology and secondary metabolism. In: Comprehensive Analytical Chemistry. Elsevier, 2019. p. 23-54.

KHAN, T. et al. Production of biomass and useful compounds through elicitation in adventitious root cultures of Fagonia indica. Industrial crops and products, v. 108, p. 451-457, 2017.

Lambers, H. (1993). Rising CO2, secondary plant metabolism, plant-herbivore interactions and litter decomposition. Vegtatio. 104/ 105, 263–271. doi: 10.1007/ BF00048157

LICHTENTHALER, H. K. Biosynthesis and accumulation of isoprenoid carotenoids and chlorophylls and emission of isoprene by leaf chloroplasts. Bulletin of the Georgian National Academy of Sciences, v. 3, n. 3, p. 81-94, 2009.

Loreto, F., and Schnitzler, J.-P. (2010). Abiotic stresses and induced BVOCs. Trends Plant Sci. 15, 154–166. doi: 10.1016/j.tplants.2009.12.006

LUDWIG-MULLER, J. Plants and endophytes: equal partners in secondary metabolite production. Biotechnol Lett, v. 37, p.1325-1334, 2015.

MALPASS, G. R. P.; GRANATO, A. C. Antimicrobial activity and chemical constituents of essential oils and oleoresins extracted from eight pepper species.  Ciência Rural, v.47, n.5, p. 1-7, 2017.

NEGREIROS, M. O.; PAWLOWSKI, Â.; SOARES, G. L. G.; MOTTA, A. S.; FRAZZON, A. P. G. In vitro antimicrobial activity of essential oils from Heterothalamus Less. (Asteraceae) against clinically relevant bacterial and fungal species. R. bras. Bioci., Porto Alegre, v. 14, n.1, p. 26-31, 2016.

Nutrition and genetics in the occurrence of pests, natural enemies and attack leaf miner in common bean (Phaseolus vulgaris). Journal of Biotechnology and Biodiversity, n. 1, v. 3, p. 74-81, 2012.

PYNE, M. E.; NARCROSS, L.; MARTIN, V. JJ. Engineering plant secondary metabolism in microbial systems. Plant physiology, v. 179, n. 3, p. 844-861, 2019.

Ramakrishna, A., and Ravishankar, G. A. (2011). Influence of abiotic stress signals on secondary metabolites in plants. Plant Signal Behav. 6, 1720–1731

S.; SATO, A. Effect of salicylic acid on essential oil compounds of Melissa officinalis in vitro plants. Agropecuária Técnica, v. 35, n. 1, p. 178-184, 2014.

SANTOS, D. Y. A. Botânica aplicada: metabólitos secundários na interação planta- ambiente. Universidade de São Paulo, Instituto Biociências. São Paulo, 2015.

SOUSA, R. F.; SOUSA, J. A. Metabólicos secundários associados a estresse hídrico e suas funções nos tecidos vegetais. Revista Brasileira de Gestão Ambiental, Pombal, v. 11, n.01, p. 01 – 08, 2017.

TAIZ, L.; ZEIGER, E; MOLLER, I. M.; MURPHY, A. Fisiologia e Desenvolvimento Vegetal. Porto Alegre: Artmed, 6ª ed. 2017.

VRANOVÁ, E.; COMAN, D.; GRUISSEM, W. Network analysis of the MVA and MEP pathways for isoprenoid synthesis. Annual review of plant biology, v. 64, p. 665-700, 2013.

VEITCH, G. E.; BOYER, A.; LEY, S. V. The Azadirachtin Story. Angewandte Chemie, Weinheim, v. 47, n. 49, p. 9402-9429, 2008.

VIZZOTTO, M.; KROLOW, A. C.; WEBER, G. E. B. Metabólitos Secundários encontrados em plantas e sua importância. Pelotas: Embrapa Clima Temperado, 2010. 16p. Documento 316.