Your search keyword '"xenobiotic compounds"' showing total 6 results

1. Microbes and Processes in Bioremediation of Soil

Author

Gangar, Tarun, Bhardwaj, Kamal Kumar, Gupta, Reena, Arora, Naveen Kumar, Series Editor, Kumar, Ashok, editor, and Sharma, Swati, editor

Published

2019

2. Environmental Remediation: Microbial and Nonmicrobial Prospects

Author

Godheja, J., Modi, D. R., Kolla, V., Pereira, A. M., Bajpai, R., Mishra, M., Sharma, S. V., Sinha, K., Shekhar, S. K., Singh, Dhananjaya Pratap, editor, Gupta, Vijai Kumar, editor, and Prabha, Ratna, editor

Published

2019

3. Aislamiento y caracterización de bacterias endémicas colombianas con capacidad de degradar tolueno.

Author

Andrea Lozano-Mahecha, Roxana and López-López, Karina

Published

2022

4. Laccases from Marine Organisms and Their Applications in the Biodegradation of Toxic and Environmental Pollutants: a Review.

Author

Theerachat, Monnat, Guieysse, David, Morel, Sandrine, Remaud-Siméon, Magali, and Chulalaksananukul, Warawut

Abstract

The discharge of industrial effluent creates environmental problems around the world and so necessitates the need for the economically expensive and sometimes technically problematic treatment of the wastewater. Laccases have enormous potential for the oxidative bioremediation of toxic xenobiotic compounds using only molecular oxygen as the sole cofactor for their reaction, and their application is regarded as environmentally friendly. Due to the low substrate specificity of laccases, they can oxidize a variety of substrates. Moreover, by using appropriate mediators, laccases can degrade a wide range of substrates, including those with structural complexity. Thus, laccases are an attractive alternative for wastewater treatment. Marine environments are rich in microorganisms that are exposed to extreme conditions, such as salinity, temperature, and pressure. Laccases from these microorganisms potentially have suitable properties that might be adaptive to bioremediation processes. This review provides the latest information on laccases from marine environments, their sources, biochemical properties, media composition for laccase production, and their applications in the bioremediation of industrial waste, especially focusing on dye decolorization. [ABSTRACT FROM AUTHOR]

Published

2019

5. Isolation and characterization of Colombian endemic bacteria capable of degrading toluene

Author

Karina Lopez-Lopez and Roxana Andrea Lozano Mahecha

Subjects

biorremediación, xenobiotic compounds, bioremediation, Pseudomonas, growth, biodegradación, crecimiento, General Medicine, compuesto xenobiótico, biodegradation

Abstract

RESUMEN Los hidrocarburos aromáticos monocíclicos: benceno, tolueno, etilbenceno y xileno (BTEX), presentes en crudo y refinados de petróleo, hacen parte de los compuestos con más impacto en el medio ambiente y la salud humana, debido a su naturaleza cancerígena, mutagénica y altamente tóxica. Esta investigación tuvo como objetivo obtener y caracterizar bacterias capaces de degradar tolueno. Se realizaron tres muestreos de suelo contaminado con hidrocarburos del Valle del Cauca en tres condiciones: gasolinería, derrame accidental y taller mecánico. Se aislaron bacterias capaces de crecer en tolueno fase vapor como única fuente de carbono y se caracterizaron a nivel morfológico, bioquímico y molecular. Para la caracterización molecular se amplificó, secuenció y analizó con herramientas bioinformáticas el gen ribosomal 16S. Se evaluó la utilización de tolueno directo con concentración al 1% como única fuente de carbono. Se logró aislar 29 bacterias con capacidad de metabolizar tolueno. La caracterización bioquímica y molecular identificó a las bacterias aisladas de suelo contaminado como Pseudomonas y Stenotrophomonas. Las bacterias aisladas en el taller mecánico resultaron ser los microorganismos con mejor crecimiento en tolueno como fuente de carbono, poseen un gran potencial para ser utilizadas para fines de biorremediación de suelos y aguas contaminadas con tolueno. ABSTRACT Monocyclic aromatic hydrocarbons: benzene, toluene, ethylbenzene, and xylene (BTEX), present in crude oil and refined petroleum products, they are the compounds with a big impact on the environment and human health, due to their carcinogenic, mutagenic, and highly toxic. This research aimed to obtain and characterize bacteria capable of degrading toluene. Three samples of soil contaminated with hydrocarbons were carried out in three different conditions: oil station, accidental oil spill, and mechanical workshop. Bacteria capable of growing in toluene vapor as the unique carbon source were isolated and characterized at a morphological, biochemical, and molecular level. For molecular characterization, the 16S ribosomal gene was amplified, sequenced, and analyzed with bioinformatic tools. The use of direct toluene with 1% concentration as the sole carbon source was evaluated. It was possible to isolate 29 bacteria with the capacity to metabolize toluene. Biochemical and molecular characterization identified bacteria isolated from contaminated soil as Pseudomonas and Stenotrophomonas. The isolated strains in the mechanical workshop were the microorganisms with the best growth in toluene as a carbon source, they have great potential to be used for the bioremediation of soils and waters with toluene pollution.

Published

2022

6. Potencial de cepas de Trichoderma spp. para la biorremediación de suelos contaminados con petróleo.

Author

Pesántez, Marcia and Castro, Rosa

Subjects

*TRICHODERMA, *BIOREMEDIATION, *SOIL remediation, *SOIL pollution, *PETROLEUM, *POLYCYCLIC aromatic hydrocarbons, *XENOBIOTICS

Abstract

Fungi species can degrade xenobiotic compounds contaminating the soil, including hydrocarbons. The objective of this work was to determine the potential of three strains of Trichoderma, isolated from soil contaminated with petroleum, for bioremediation. Trichoderma harzianum CCECH-Te1, Trichoderma viride CCECH-Te2 and Trichoderma psedokoningii CCECH-Te3 were included in one assay with each independent strain. The inoculum was adjusted to a concentration of 1x1010 conidia ml-1 which was applied to soil contaminated by an oil spill. After 96 days of inoculation, soil samples were taken at 10 and 15 cm depth. The content of total hydrocarbons, polycyclic aromatic hydrocarbons and heavy metals such as cadmium, nickel and lead were determined. With the data, it was calculated the percentage of removal of the analyzed compounds by each strain. At 10 cm and 15 cm depth, it was observed the removal of the compounds in percentages that reached between 47 and 69.1% in the hydrocarbons and up to 53.72% in the heavy metals. It which denoted the potential of the three strains for bioremediation in contaminated soils. [ABSTRACT FROM AUTHOR]

Published

2016