RESUMO
Basil (Ocimum basilicumL.) is a medicinal species used in several areas, such as food, medicines and cosmetics, and the understanding of its physiological behavior under environmental conditions is of paramount importance for the improvement of cultivation methods. The objective of this study was to evaluate the influence of different water availability under physiological, biochemical and metabolic characteristics, in three distinct genotypes: 'Alfavaca basilicão', 'Gennaro de menta' and 'Grecco à palla', during two different phenological stages (vegetative and reproductive). It was found that the water deficit promotes physiological changes to tolerate water stress, and the studied genotypes have different routes to achieve this physiological tolerance, which culminates in a distinct accumulation of metabolites in plants, and can be considered interesting if the final product is the production of essential oils.
La albahaca (Ocimum basilicum L.) es una planta medicinal utilizada en varias áreas: alimenticia, medicinal e industria cosmética; es de suma importancia el entendimiento de su comportamiento fisiológico bajo diferentes condiciones ambientales con el fin de mejorar los procesos del cultivo. El objetivo de este estudio fue evaluar la influencia de diferentes disponibilidades hídricas en las características fisiológicas, bioquímicas y metabólicas en tres genotipos de albahaca: "Alfavaca basilicão", "Gennaro de menta" y "Grecco à palla" durante dos etapas fenológicas (vegetativa y reproductiva). Fue encontrado que el déficit hídrico promueve cambios fisiológicos con el fin de tolerar el estrés hídrico. Los genotipos estudiados presentaron diferentes rutas para alcanzar esta tolerancia fisiológica, la cual culmina con distintas acumulaciones de metabolitos en las plantas, y puede ser considerado interesante si el producto final es la producción de aceites esenciales.
Assuntos
Plantas Medicinais/metabolismo , Óleos Voláteis/metabolismo , Ocimum basilicum/metabolismo , Plantas Medicinais/fisiologia , Água/metabolismo , Ocimum basilicum/fisiologia , Umidade do SoloRESUMO
MicroRNA (miRNA) is a class of endogenous non-coding single-stranded RNA molecules with a length of about 16 ~ 29 nucleotides. Widely found in eukaryotes, they play important regulatory roles in plant cell proliferation and differentiation, organ formation, metabolism, resistance to salt, temperature, drought, heavy metal stress, etc. Plant miRNA mainly affects plant growth and development by degrading target genes or inhibiting the expression of target genes at the translation level. At present, the research on the production and regulation of miRNA is relatively clear, and the specific roles and regulatory networks of miRNA in plant secondary metabolism and response to abiotic stress have also been identified, which lays the foundation for a full understanding of the molecular regulation of miRNA. In order to better understand the expression and regulation characteristics of miRNA and to interpret the regulatory network of miRNA in plant secondary metabolism and abiotic stress response, we review the molecular mechanisms of plant miRNAs in regulating the biosynthesis of various secondary metabolites(flavonoids, terpenoids, alkaloids) and responding to environmental stress (salt, high temperature, low temperature, drought, heavy metal stress),and summarize the regulatory roles of miRNA in secondary metabolism and abiotic stress, which will provide references for understanding the relationship between environmental stress and plant metabolism, for further studying the regulatory mechanism of miRNA in maintaining plant homeostasis, and for cultivating superior crop varieties.
RESUMO
A produção de banana no Vale do Ribeira, em São Paulo, está inserida numa região que abriga um fragmento remanescente da Mata Atlântica, considerada um dos principais repositórios de biodiversidade e a floresta mais devastada entre os biomas brasileiros. Medidas sustentáveis, como a adoção de práticas agrícolas alternativas, tem sido o caminho para a conservação da fauna e flora, como também para a redução do uso inapropriado de terras que consequentemente pode aumentar o índice de doenças que atacam as plantas. Apesar, do razoável conhecimento científico sobre a fisiologia pós-colheita da banana, ainda não foram elucidadas quais são as respostas fisiológicas do fruto diante das alterações do meio ambiente decorrentes das práticas agroecológicas. Principalmente quais são os mecanismos de ação de compostos específicos, relacionados com a resistência da planta contra os estresses bióticos e abióticos. Também, não há uma abordagem analítica integrada que identifique os reguladores das vias metabólicas e possibilite um estudo holístico a nível molecular. Neste trabalho, foi avaliado o efeito da proximidade da biodiversidade nativa da Mata Atlântica sobre o perfil de metabólitos da banana (Musa acuminata AAA, Cavendish, cv. Nanicão). Foram comparados os frutos da parcela Biodiversidade, o qual apresenta 60% de seu perímetro limítrofe à floresta com a parcela Controle, inserida em uma área de produção de banana convencional. Neste estudo, foram determinados os perfis de etileno, vida verde, amido, açúcares, textura, cor, metabólitos semi-voláteis e não-voláteis e poliaminas. Como resultado, ambas as parcelas avaliadas apresentaram diferenças significativas no metabolismo primário e secundário, nos frutos verdes e maduros, respectivamente. Os metabólitos com diferença significativa entre as parcelas experimentais apresentaram maior envolvimento no metabolismo primário, sobretudo na via de biossíntese de aminoácidos, compostos precursores de uma ampla faixa de metabólitos secundários. As alterações quanto à abundância destes compostos são uma referência de que as mudanças do meio modificam as respostas da planta a estresses e estímulos
Banana production in the Ribeira Valley, in São Paulo, is set in a region that embraces a remaining fragment of the Atlantic Coastal Forest (Mata Atlântica), considered one of the main biodiversity repositories and the most devastated forest among the Brazilians´ biomes. Sustainable measures such as the adoption of alternative farming practices has been the way for the conservation of fauna and flora, but also to reduce the inappropriate use of land which in turn may increase the disease index that attack plants. Although, reasonable scientific knowledge about banana postharvest physiology is available, the fruit´s physiologic response given the environment changes as a result agroecological practices has not been elucidated yet. Primarily what are the mechanisms of action of specific compounds, related to plant resistance against biotic and abiotic stresses. In addition, there is not an integrated analytical approach to identify regulators of metabolic pathways and enable a holistic study at the molecular level. In this study, we evaluated the effect of proximity to the native biodiversity of the Atlantic Forest on the banana metabolites profile (Musa acuminata AAA, Cavendish, cv. Nanicão). The fruits of Biodiversity group were compared, which has 60% of its perimeter adjacent to the forest with the Control group set in a conventional banana production area. In this study, we determined the ethylene profiles, green life, starch, sugars, texture, colour, semi- volatile and non- volatile metabolites and polyamines. As a result, both evaluated groups showed significant differences in primary and secondary metabolism, green and ripen fruits respectively. The metabolites with significant differences between treatments showed greater involvement in primary metabolism, especially in amino acid biosynthesis, precursors of secondary metabolites. Changes in the abundance of these compounds are indicators that alterations in the environment modify the plant responses to stresses and stimuli