Direct biodegradation of eugenol to coniferyl aldehyde and other higher value-added products by Gibberella fujikuroi ZH-34

BACKGROUND: Eugenol is an economically favorable substrate for the microbial biotransformation of aromatic compounds. Coniferyl aldehyde is one kind of aromatic compound that is widely used in condiment and medical industries; it is also an important raw material for producing other valuable products such as vanillin and protocatechuic acid. However, in most eugenol biotransformation processes, only a trace amount of coniferyl aldehyde is detected, thus making these processes economically unattractive. As a result, an investigation of new strains with the capability of producing more coniferyl aldehyde from eugenol is required. RESULTS: We screened a novel strain of Gibberella fujikuroi, labeled as ZH-34, which was capable of transforming eugenol to coniferyl aldehyde. The metabolic pathway was analyzed by high-performance liquid chromatography­mass spectrometry and transformation kinetics. The culture medium and biotransformation conditions were optimized. At a 6 h time interval of eugenol fed-batch strategy, 3.76 ± 0.22 g/L coniferyl aldehyde was obtained, with the corresponding yield of 57.3%. CONCLUSIONS: This work improves the yield of coniferyl aldehyde with a biotechnological approach. Moreover, the fed-batch strategy offers possibility for controlling the target product and accumulating different metabolites

Efeito do eugenol como agente mitigador do estresse no transporte de juvenis de tilápia do Nilo / Eugenol effect as a mitigate agent of stress in transport of Nile tilapia juveniles

O Brasil se destaca no cenário americano como um dos países com maior potencial para a piscicultura, principalmente a dulcícola. A tilápia do Nilo (Oreochromis niloticus) se destaca sendo a espécie mais cultivada em nosso país. Metodologias para diminuir a interferência de agentes estressores nas funções vitais e fisiológicas dos peixes são importantes durante o manejo. O presente trabalho teve como objetivo avaliar o efeito do eugenol nas respostas metabólicas e iônicas de juvenis de tilápia do Nilo, submetidos ao transporte em sacos plásticos, em diferentes densidades, a fim de verificar a eficiência do produto como agente mitigador do estresse. O eugenol foi utilizado na concentração de 15mg/L em água. As densidades avaliadas foram 4, 7 e 10 peixes L-1, equivalente a 140, 245 e 350g L-1. Após quatro horas de transporte foram avaliados os parâmetros metabólicos (glicose e lactato) e iônicos (cloreto, magnésio e cálcio), bem como a qualidade da água nos sacos plásticos. Em relação aos dois parâmetros metabólicos, o uso do eugenol com o intuito de diminuir as respostas do estresse não foi satisfatório. Houve elevação no nível de glicose nas densidades 140 e 350g L-1 imediatamente ao término do transporte, e o teor de lactato dos peixes na densidade 245g L-1 aumentou 24 horas depois, indicando que os animais não conseguiram manter a homeostase inicial. Dentre as concentrações de íons avaliados, o magnésio foi o que sofreu maior variação. Podemos concluir que a adição de 15mg L-1 de eugenol na água durante o transporte de juvenis de tilápia do Nilo nas densidades de 140, 245 e 350g L-1 não foi capaz de minimizar as respostas ao estresse...

Brazil stands out in the American scene as one of the countries with the greatest potential for fish farming mainly in fresh water. Nile tilapia (Oreochromis niloticus) stands out being the most cultivated fish species in our country. Methodologies to reduce the interference of stressors agents in vital and physiological functions of fishes are important during handling. This study aimed to evaluate the effect of eugenol in the metabolic and ionic responses of juvenile Nile tilapia, submitted to transport in plastic bags, at different densities in order to verify the efficiency of the product as an mitigate agent of stress. Eugenol was used at a concentration of 15mg L-1 in water. The evaluated densities were 4, 7 and 10 fish L-1, which were equivalent to 140, 245 and 350g L-1. After four hours of transport the metabolic (glucose and lactate) and ions parameters (chloride, magnesium and calcium) were evaluated, as well as the water quality in the plastic bags. For the two metabolic parameters, the use of the eugenol in order to reduce the stress response was not satisfactory. There was an increase in blood glucose level at the densities of 140 and 350g L-1 immediately after termination of the transport, and the level of fish lactate content at the density of 245g L-1 had increased after 24 hours indicating that the animals could not maintain the initial homeostasis. Among the concentrations of the evaluated ions magnesium suffered the greater variation. We can conclude that the addition of 15 mg L-1 of eugenol in the water during the transport of juvenile Nile tilapia at densities of 140, 245 and 350g L-1 was not able to minimize stress responses...

Application of Taguchi design and Response Surface Methodology for improving conversion of isoeugenol into vanillin by resting cells of Psychrobacter sp. CSW4

For all industrial processes, modelling, optimisation and control are the keys to enhance productivity and ensure product quality. In the current study, the optimization of process parameters for improving the conversion of isoeugenol to vanillin by Psychrobacter sp. CSW4 was investigated by means of Taguchi approach and Box-Behnken statistical design under resting cell conditions. Taguchi design was employed for screening the significant variables in the bioconversion medium. Sequentially, Box-Behnken design experiments under Response Surface Methodology [RSM] was used for further optimization. Four factors [isoeugenol, NaCl, biomass and tween 80 initial concentrations], which have significant effects on vanillin yield, were selected from ten variables by Taguchi experimental design. With the regression coefficient analysis in the Box-Behnken design, a relationship between vanillin production and four significant variables was obtained, and the optimum levels of the four variables were as follows: initial isoeugenol concentration 6.5 g/L, initial tween 80 concentration 0.89 g/L, initial NaCl concentration 113.2 g/L and initial biomass concentration 6.27 g/L. Under these optimized conditions, the maximum predicted concentration of vanillin was 2.25 g/L. These optimized values of the factors were validated in a triplicate shaking flask study and an average of 2.19 g/L for vanillin, which corresponded to a molar yield 36.3%, after a 24 h bioconversion was obtained. The present work is the first one reporting the application of Taguchi design and Response surface methodology for optimizing bioconversion of isoeugenol into vanillin under resting cell conditions