Volatile compounds for biotechnological applications produced during competitive interactions between yeasts and fungi.

Fungi, yeasts and bacteria produce volatile compounds during their metabolism. In this study, the volatile compounds produced by yeast strains (Saccharomyces cerevisiae and Rhodotorula mucilaginosa) and fungal strains (Aspergillus carbonarius and Aspergillus ochraceus) during competitive interactions were investigated by solid-phase microextraction coupled with gas chromatography-mass spectrometry. Fifty-six volatile compounds were identified representing alcohols, aldehydes, esters, ketones, aromatic compounds, acids, furans, phenols, and nitrogen compounds, being the largest amount in the class of esters and alcohols. Eight compounds were identified only in interactive culture conditions such as 2-amino-1-propanol, isopropylamine, dimethylamine, pentyl propanoate, ethyl-2-aminopropanoate, acetone, oxalic acid, and ß-elemene and five of these were produced in cocultures including A. carbonarius. These will be developed for future biotechnological applications such as in the pharmaceutical and biological industry to produce drugs. Antimicrobial and antifungal activities; Solvent and herbicide; flavoring ingredient; solvent, plastic synthesis, nail polish remover and thinner, pesticide and herbicide; important in the complexation of minerals in the soil; and plant-environment interactions, defending predators, pathogens, and competitors.

A systemic approach to the quantification of the phenotypic plasticity of plant physiological traits: the multivariate plasticity index.

The phenotype of an individual emerges from the interaction of its genotype with the environment in which it is located. Phenotypic plasticity (PP) is the ability of a specific genotype to present multiple phenotypes in response to the environment. Past and current methods for quantification of PP present limitations, mainly in what constitutes a systemic analysis of multiple traits. This research proposes an integrative index for quantifying and evaluating PP. The multivariate plasticity index (MVPi) was calculated based on the Euclidian distance between scores of a canonical variate analysis. It was evaluated for leaf physiological traits in two cases using Brazilian Cerrado species and sugarcane varieties, grown under diverse environmental conditions. The MVPi was sensitive to plant behaviour from simple to complex genotype-environment interactions and was able to inform coarse and fine changes in PP. It was correlated to biomass allocation, showing agreement between plant organizational levels. The new method proved to be elucidative of plant metabolic changes, mainly by explaining PP as an integrated process and emergent property. We recommend the MVPi method as a tool for analysis of phenotypic plasticity in the context of a systemic evaluation of plant phenotypic traits.

Aplicação exógena de quitosana no sistema antioxidante de jaborandi / Exogenous chitosan application on antioxidant systems of jaborandi

A aplicação de eliciadores em plantas é utilizada em estudos de fisiologia para compreensão dos mecanismos de defesa ao ataque de herbívoros ou infecção por patógenos. Em virtude disso, foi avaliado o efeito do eliciador exógeno quitosana no sistema antioxidante enzimático de jaborandi (Piper mollicomum Kunth). Foram avaliadas as atividades das enzimas ascorbato peroxidase (APX), catalase (CAT) e superóxido dismutase (SOD) e as concentrações de peróxido de hidrogênio (H2O2) e malonaldeído (MDA), ambas análises para verificar a peroxidação lipídica. O delineamento experimental utilizado foi o de blocos casualizados (DBC), constituído de um fatorial (5x2) composto pelos controles sem quitosana (plantas sem pulverização e plantas pulverizadas apenas com o solvente de diluição da quitosana) e concentrações de quitosana (2,5; 5,0 e 10,0 g L-1) em dois estádios de desenvolvimento foliar (em desenvolvimento e completamente expandida). Nas folhas completamente expandidas, o sistema antioxidante foi mais ativo. A CAT teve maior participação no sequestro de radicais livres, induzido pela aplicação da quitosana em ambos os estádios de desenvolvimento foliar. A APX foi induzida somente nas folhas completamente expandidas e na maior concentração de quitosana. O método do MDA foi melhor para evidenciar a diferença nos teores de peróxido de hidrogênio, em função do estresse induzido pela quitosana. De acordo com os resultados obtidos neste ensaio, pode-se sugerir que, nas plantas de jaborandi, as enzimas antioxidativas são requisitadas em resposta ao eliciador em questão, a quitosana, compondo, assim, o mecanismo de defesa dessas plantas.

Elicitors are used in plant physiology studies for comprehension of defense mechanisms against herbivore attach and pathogen infections. For this reason, the exogenous chitosan effect was tested as an elicitor on Jaborandi (Piper mollicomum Kunth). Thus, it was evaluated the elicitor effect in the antioxidant enzymes superoxide dismutase (SOD), catalase (CAT) ,ascorbate peroxidase (APX),hydrogen peroxide (H2O2) and malonaldehyde (MDA) concentrations to estimate the lipid peroxidation. The experimental design was in randomized blocks in a factorial 5x2, being 2 controls (plants without pulverization and plants sprayed only with a diluting solvent chitosan) and 3 chitosan concentrations (2.5; 5.0 and 10.0 g L-1) in 2 leaf development stage (in development and fully expanded). At the fully expanded leaves, the antioxidant system presented higher active. The CAT had greater involvement in the kidnapping of free radicals induced by the application of chitosan in both leaf stages of development. The APX was induced only in fully expanded leaves and the highest concentration of chitosan. The MDA method was better to highlight the difference in hydrogen peroxide content as a function of stress induced by chitosan. According to the results of this test, it can be suggested that the plants Jaborandi antioxidant enzymes are required in response to the elicitor in question, chitosan, thus composing the defense mechanism of these plants.