Assessment of petroleum biodegradation for Bacillus toyonensis by the using redox indicator 2,6 dichlorophenol indophenol / Avaliação da biodegradação do petróleo por Bacillus toyonensis, usando o indicador redox 2,6 diclorofenol indofenol

Petroleum degrading microorganisms have been isolated from different environments with the purpose of being used in bioremediation processes in areas impacted by petroleum spills. The objective of this study was to evaluate the ability of Bacillus toyonensis AM07 strain to metabolize petroleum compounds. The strain was isolated from the effluent dike of the Urucu Petroleum Province, Coari - Amazonas, Brazil. The degrading activity of B. toyonensis was evaluated by the colorimetric method using the redox indicator 2,6-dichlorophenol indophenol (DCPIP). Thus, the microorganism was inoculated into minimal medium with DCPIP, and with petroleum as the sole carbon source. The degradation potential of the microorganism was found by changing the DCPIP staining and absorbance readings 600nm. The results obtained demonstrated that the bacterial strain was able to degrade petroleum by altering the color of the medium from blue to colorless and by reducing the concentration of the indicator in the absorbance readings. B. toyonensis AM07 strain has shown good performance in the petroleum degradation assays and may be used in the future in remediation technologies for hydrocarbon impacted environments.(AU)

Microrganismos degradadores de petróleo têm sido isolados de diferentes ambientes com a finalidade de serem utilizados em processos de biorremediação de áreas impactadas com derrames de petróleo. O objetivo deste estudo foi avaliar a capacidade da linhagem de Bacillus toyonensis AM07, isolada do dique de efluente da Província Petrolífera de Urucu, Coari - Amazonas, Brasil, em metabolizar compostos do petróleo. A atividade degradadora do B. toyonensis foi avaliada pelo método colorimétrico, utilizando indicador redox 2,6-diclorofenol indofenol (DCPIP). Assim, o microrganismo foi inoculado em meio mínimo com DCPIP e petróleo como única fonte de carbono. O potencial de degradação do microrganismo foi constatado mediante a mudança de coloração DCPIP e leituras de absorbância 600nm. Os resultados obtidos demonstraram que a cepa bacteriana foi capaz de degradar petróleo, alterando a coloração do meio de azul para incolor e reduzindo a concentração do indicador nas leituras de absorbâncias. A cepa de B. toyonensis AM07 mostrou bom desempenho nos ensaios de degradação do petróleo, podendo ser utilizada, no futuro, em tecnologias de remediação de ambientes impactados por hidrocarbonetos.(AU)

Synthesis and characterization of a novel fish scale-immobilized chitosan adsorbent--preliminary features of dichlorophenol sorption by solution calorimetry.

Brazilian Corvina fish scales were cross linked with polyglutaraldehyde and chemically modified with chitosan gel. Characterization has pointed that chitosan has good and stable adhesion on the fish scales. The sorption of dichlorophenol-2,6-indophenol (DPI) on the novel material was studied by isothermal solution calorimetry. The non-symmetric shapes of the calorimetric plots indicate that the DPI sorption sites of the adsorbent are not energetically uniform. The enthalpies of the DPI sorption processes were highly exothermic (from -536.7 to -50.9 kJ mol(-1)). The analysis of both the characterization of the materials and the calorimetric results has suggested that the interactions at the fish scales/DPI interface are due to surface reactions. The present work underlines the excellent features of the new fish scale-based adsorbent for use in phenol sorption applications at solid/solution interfaces.

Inhibition of pea ferredoxin-NADP(H) reductase by Zn-ferrocyanide.

Ferredoxin-NADP(H) reductases (FNRs) represent a prototype of enzymes involved in numerous metabolic pathways. We found that pea FNR ferricyanide diaphorase activity was inhibited by Zn2+ (Ki 1.57 microM). Dichlorophenolindophenol diaphorase activity was also inhibited by Zn2+ (Ki 1.80 microM), but the addition of ferrocyanide was required, indicating that the inhibitor is an arrangement of both ions. Escherichia coli FNR was also inhibited by Zn-ferrocyanide, suggesting that inhibition is a consequence of common structural features of these flavoenzymes. The inhibitor behaves in a noncompetitive manner for NADPH and for artificial electron acceptors. Analysis of the oxidation state of the flavin during catalysis in the presence of the inhibitor suggests that the electron-transfer process between NADPH and the flavin is not significantly altered, and that the transfer between the flavin and the second substrate is mainly affected. Zn-ferrocyanide interacts with the reductase, probably increasing the accessibility of the prosthetic group to the solvent. Ferredoxin reduction was also inhibited by Zn-ferrocyanide in a noncompetitive manner, but the observed Ki was about nine times higher than those for the diaphorase reactions. The electron transfer to Anabaena flavodoxin was not affected by Zn-ferrocyanide. Binding of the apoflavodoxin to the reductase was sufficient to overcome the inhibition by Zn-ferrocyanide, suggesting that the interaction of FNRs with their proteinaceous electron partners may induce a conformational change in the reductase that alters or completely prevents the inhibitory effect.

Peróxido de hidrógeno en el humor acuoso: 1992-1997 / Hydrogen peroxide in the aqueous humor: 1992-1997

Ideas prevailing in 1991 on hydrogen peroxide in the aqueous humor are outlined. They are critically examined under the light of our finding that the method used to establish aqueous humor levels of peroxide generates itself peroxide during the short time span of the analysis. This is due to the fact that the probe used, dichlorophenol indophenol (DCPIP), spontaneously auto-oxidizes in the presence of oxygen. It was concluded then that the level of hydrogen peroxide in the aqueous humor cannot be higher than about 0.3 microM, the detection limit of the DCPIP method. It was also concluded that the statement commonly made in the literature that aqueous humor hydrogen peroxide derives from the oxidation of ascorbate, an abundant component of that fluid, is based solely on the use of the DCPIP method, and so could easily be due to a methodological artifact. The same applies to the statement that the levels of hydrogen peroxide are very high in human senile cataracts. The surprising resistance to accept the results and conclusions of our 1992 publication is documented. Finally, the content is discussed of an oral presentation made at the 1997 ARVO Annual Meeting in which an important portion of our results and conclusions was confirmed, perhaps signaling a shift towards a wider acceptance of our findings.

[Hydrogen peroxide in the aqueous humor: 1992-1997]. / Peróxido de hidrógeno en el humor acuoso: 1992-1997.

Ideas prevailing in 1991 on hydrogen peroxide in the aqueous humor are outlined. They are critically examined under the light of our finding that the method used to establish aqueous humor levels of peroxide generates itself peroxide during the short time span of the analysis. This is due to the fact that the probe used, dichlorophenol indophenol (DCPIP), spontaneously auto-oxidizes in the presence of oxygen. It was concluded then that the level of hydrogen peroxide in the aqueous humor cannot be higher than about 0.3 microM, the detection limit of the DCPIP method. It was also concluded that the statement commonly made in the literature that aqueous humor hydrogen peroxide derives from the oxidation of ascorbate, an abundant component of that fluid, is based solely on the use of the DCPIP method, and so could easily be due to a methodological artifact. The same applies to the statement that the levels of hydrogen peroxide are very high in human senile cataracts. The surprising resistance to accept the results and conclusions of our 1992 publication is documented. Finally, the content is discussed of an oral presentation made at the 1997 ARVO Annual Meeting in which an important portion of our results and conclusions was confirmed, perhaps signaling a shift towards a wider acceptance of our findings.