Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment

Most human activities that use water produce wastewater and, as the overall demand for water grows, the quantity of wastewater produced and its overall pollution load are continuously increasing worldwide. If wasted water is not properly treated, it may negatively impact the environment and human he...

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Autores:: Sotelo Briceño, Laura Daniela

Tipo de recurso:: Trabajo de grado de pregrado

Fecha de publicación:: 2022

Institución:: Universidad de los Andes

Repositorio:: Séneca: repositorio Uniandes

Idioma:: eng

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dc.title.none.fl_str_mv	Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment
title	Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment
spellingShingle	Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment Microfluidic systems Microencapsulado Microfluídica Purificación de aguas residuales Biodegradación de aguas residuales Microbiología
title_short	Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment
title_full	Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment
title_fullStr	Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment
title_full_unstemmed	Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment
title_sort	Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment
dc.creator.fl_str_mv	Sotelo Briceño, Laura Daniela
dc.contributor.advisor.none.fl_str_mv	Osma Cruz, Johan Faccelo Vives Flórez, Martha Josefina
dc.contributor.author.none.fl_str_mv	Sotelo Briceño, Laura Daniela
dc.contributor.researchgroup.es_CO.fl_str_mv	Biomycrosystems
dc.subject.keyword.none.fl_str_mv	Microfluidic systems Microencapsulado Microfluídica Purificación de aguas residuales Biodegradación de aguas residuales
topic	Microfluidic systems Microencapsulado Microfluídica Purificación de aguas residuales Biodegradación de aguas residuales Microbiología
dc.subject.themes.es_CO.fl_str_mv	Microbiología
description	Most human activities that use water produce wastewater and, as the overall demand for water grows, the quantity of wastewater produced and its overall pollution load are continuously increasing worldwide. If wasted water is not properly treated, it may negatively impact the environment and human health, this is one of the reasons why wastewater treatment has become an important worldwide priority during the past decade. However, conventional wastewater treatment technologies, like activated sludge, cannot eliminate these pollutants completely, so enzymatic treatment arises as an alternative method for the treatment of organic micropollutants. Here, we aimed at microencapsulating Laccase, by producing monodisperse alginatebased microcapsules through a droplet-based microfluidic system, and establish the Laccase encapsulation efficiency and its enzymatic activity in different pH and temperature conditions, in order to determine its potential use as a biocatalyst in wastewater treatment. In this sense, it was first aimed to manufacture a microsystem device and determine the best parameters for microcapsule generation, in order to encapsulate the enzyme and determine its immobilization efficiency. Then, the optimum pH and temperature conditions were determined to perform the preliminary tests of the encapsulated Laccase in the microreactor. It is expected to obtain a high percentage of micropollutants removal from the artificial water samples, and also a low loss of enzyme from the microcapsules over time.
publishDate	2022
dc.date.accessioned.none.fl_str_mv	2022-07-25T20:23:38Z
dc.date.available.none.fl_str_mv	2022-07-25T20:23:38Z
dc.date.issued.none.fl_str_mv	2022-07-24
dc.type.es_CO.fl_str_mv	Trabajo de grado - Pregrado
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dc.language.iso.es_CO.fl_str_mv	eng
language	eng
dc.relation.references.es_CO.fl_str_mv	Tilley, E., Compendium of sanitation systems and technologies; Eawag: 2014. Water, U. The United Nations World Water Development Report 2017. Margot, J.; Rossi, L.; Barry, D. A.; Holliger, C. Wiley Interdisciplinary Reviews: Water 2015, 2, 457-487. Paul, P. E. V.; Sangeetha, V.; Deepika, R. G. In Recent developments in applied microbiology and biochemistry; Elsevier: 2019, pp 107-125. Ferreira, D. P.; Cruz, J.; Fangueiro, R. In Green composites for automotive applications; Elsevier: 2019, pp 3-41. Berg, J.; Tymoczko, J.; Stryer, L Biochemistry 2002. Chapman, J.; Ismail, A. E.; Dinu, C. Z. Catalysts 2018, 8, 238. Jegannathan, K. R.; Nielsen, P. H. Journal of cleaner production 2013, 42, 228-240. Barber, E. A.; Liu, Z.; Smith, S. R. Microorganisms 2020, 8, 122. Singh, M.; Hemant, K.; Ram, M; Shivakumar, H. Research in pharmaceutical sciences 2010, 5, 65. Campaña, A. L.; Sotelo, D. C.; Oliva, H. A.; Aranguren, A.; Ornelas-Soto, N.; Cruz, J. C.; Osma, J. F. Polymers 2020, 12, 1158 Niku-Paavola, M.-L.; Raaska, L.; Itävaara, M. Mycological Research 1990, 94, 27-31. Lopez-Barbosa, N.; Campaña, A. L.; Cruz, J. C.; Ornelas-Soto, N.; Osma, J. F. Polymers 2020, 12, 1353. Alberty, R. A.; Massey, V.; Frieden, C.; Fuhlbrigge, A. R. Journal of the American Chemical Society 1954, 76, 2485-2493 Mazlan, S. Z.; Hanifah, S. A. International Journal of Polymer Science 2017, 2017. Cristóvão, R. O.; Silvério, S. C.; Tavares, A. P.; Brígida, A. I. S.; Loureiro, J. M.; Boaventura, R. A.; Macedo, E. A.; Coelho, M. A. Z.World Journal of Microbiology and Biotechnology 2012, 28, 2827-2838 Pirker, K. F.; Baratto, M. C.; Basosi, R.; Goodman, B. A. Journal of inorganic biochemistry 2012, 112, 10-16. Yin, Q.; Zhou, G.; Peng, C.; Zhang, Y.; Kües, U.; Liu, J.; Xiao, Y.; Fang, Z. AMB Express 2019, 9, 1-13. Clayden, J.; Greeves, N.;Warren, S.;Wothers, P. Organic chemistry, 2001. Mujahid, A.; Ali, Y.; Afzal, A.; Hussain, T.; Shah, A. T.; Shehzad, K.; Farooq, M. U. Arabian Journal of Chemistry 2014, 7, 522-524. Manu, B.; Mahamood, S; Vittal, H; Shrihari, S, et al. IJRCE 2011, 1, 157. Hoang, V. D.; Ly, D. T. H.; Tho, N. H.; Minh Thi Nguyen, H. The Scientific World Journal 2014, 2014. Skoog, D. A.; West, D. M.; Holler, F. J.; Crouch, S. R., Fundamentals of analytical chemistry; Cengage learning: 2013.
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dc.format.extent.es_CO.fl_str_mv	30 páginas
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dc.publisher.es_CO.fl_str_mv	Universidad de los Andes
dc.publisher.program.es_CO.fl_str_mv	Microbiología
dc.publisher.faculty.es_CO.fl_str_mv	Facultad de Ciencias
dc.publisher.department.es_CO.fl_str_mv	Departamento de Ciencias Biológicas
institution	Universidad de los Andes
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spelling	Attribution-NoDerivatives 4.0 Internacionalhttp://creativecommons.org/licenses/by-nd/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Osma Cruz, Johan Facceloe4467a1a-d4b5-43a8-8639-efbf0020b552600Vives Flórez, Martha Josefina0e8da18b-7a87-4f29-9af5-33050bd372b2400Sotelo Briceño, Laura Daniela1fca889f-7f2b-40bf-9578-955be63aeca2600Biomycrosystems2022-07-25T20:23:38Z2022-07-25T20:23:38Z2022-07-24http://hdl.handle.net/1992/59136instname:Universidad de los Andesreponame:Repositorio Institucional Sénecarepourl:https://repositorio.uniandes.edu.co/Most human activities that use water produce wastewater and, as the overall demand for water grows, the quantity of wastewater produced and its overall pollution load are continuously increasing worldwide. If wasted water is not properly treated, it may negatively impact the environment and human health, this is one of the reasons why wastewater treatment has become an important worldwide priority during the past decade. However, conventional wastewater treatment technologies, like activated sludge, cannot eliminate these pollutants completely, so enzymatic treatment arises as an alternative method for the treatment of organic micropollutants. Here, we aimed at microencapsulating Laccase, by producing monodisperse alginatebased microcapsules through a droplet-based microfluidic system, and establish the Laccase encapsulation efficiency and its enzymatic activity in different pH and temperature conditions, in order to determine its potential use as a biocatalyst in wastewater treatment. In this sense, it was first aimed to manufacture a microsystem device and determine the best parameters for microcapsule generation, in order to encapsulate the enzyme and determine its immobilization efficiency. Then, the optimum pH and temperature conditions were determined to perform the preliminary tests of the encapsulated Laccase in the microreactor. It is expected to obtain a high percentage of micropollutants removal from the artificial water samples, and also a low loss of enzyme from the microcapsules over time.MicrobiólogoPregrado30 páginasapplication/pdfengUniversidad de los AndesMicrobiologíaFacultad de CienciasDepartamento de Ciencias BiológicasPolymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatmentTrabajo de grado - Pregradoinfo:eu-repo/semantics/bachelorThesisinfo:eu-repo/semantics/acceptedVersionhttp://purl.org/coar/resource_type/c_7a1fTexthttp://purl.org/redcol/resource_type/TPMicrofluidic systemsMicroencapsuladoMicrofluídicaPurificación de aguas residualesBiodegradación de aguas residualesMicrobiologíaTilley, E., Compendium of sanitation systems and technologies; Eawag: 2014.Water, U. The United Nations World Water Development Report 2017.Margot, J.; Rossi, L.; Barry, D. A.; Holliger, C. Wiley Interdisciplinary Reviews: Water 2015, 2, 457-487.Paul, P. E. V.; Sangeetha, V.; Deepika, R. G. In Recent developments in applied microbiology and biochemistry; Elsevier: 2019, pp 107-125.Ferreira, D. P.; Cruz, J.; Fangueiro, R. In Green composites for automotive applications; Elsevier: 2019, pp 3-41.Berg, J.; Tymoczko, J.; Stryer, L Biochemistry 2002.Chapman, J.; Ismail, A. E.; Dinu, C. Z. Catalysts 2018, 8, 238.Jegannathan, K. R.; Nielsen, P. H. Journal of cleaner production 2013, 42, 228-240.Barber, E. A.; Liu, Z.; Smith, S. R. Microorganisms 2020, 8, 122.Singh, M.; Hemant, K.; Ram, M; Shivakumar, H. Research in pharmaceutical sciences 2010, 5, 65.Campaña, A. L.; Sotelo, D. C.; Oliva, H. A.; Aranguren, A.; Ornelas-Soto, N.; Cruz, J. C.; Osma, J. F. Polymers 2020, 12, 1158Niku-Paavola, M.-L.; Raaska, L.; Itävaara, M. Mycological Research 1990, 94, 27-31.Lopez-Barbosa, N.; Campaña, A. L.; Cruz, J. C.; Ornelas-Soto, N.; Osma, J. F. Polymers 2020, 12, 1353.Alberty, R. A.; Massey, V.; Frieden, C.; Fuhlbrigge, A. R. Journal of the American Chemical Society 1954, 76, 2485-2493Mazlan, S. Z.; Hanifah, S. A. International Journal of Polymer Science 2017, 2017.Cristóvão, R. O.; Silvério, S. C.; Tavares, A. P.; Brígida, A. I. S.; Loureiro, J. M.; Boaventura, R. A.; Macedo, E. A.; Coelho, M. A. Z.World Journal of Microbiology and Biotechnology 2012, 28, 2827-2838Pirker, K. F.; Baratto, M. C.; Basosi, R.; Goodman, B. A. Journal of inorganic biochemistry 2012, 112, 10-16.Yin, Q.; Zhou, G.; Peng, C.; Zhang, Y.; Kües, U.; Liu, J.; Xiao, Y.; Fang, Z. AMB Express 2019, 9, 1-13.Clayden, J.; Greeves, N.;Warren, S.;Wothers, P. Organic chemistry, 2001.Mujahid, A.; Ali, Y.; Afzal, A.; Hussain, T.; Shah, A. T.; Shehzad, K.; Farooq, M. U. Arabian Journal of Chemistry 2014, 7, 522-524.Manu, B.; Mahamood, S; Vittal, H; Shrihari, S, et al. IJRCE 2011, 1, 157.Hoang, V. D.; Ly, D. T. H.; Tho, N. H.; Minh Thi Nguyen, H. The Scientific World Journal 2014, 2014.Skoog, D. A.; West, D. M.; Holler, F. J.; Crouch, S. 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Polymeric microencapsulation of the fungal enzyme Laccase, through microfluidic systems, for its potential use as a biocatalyst in wastewater treatment

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