Utilization of FucoPol for commercial inocula immobilization for bioremediation applications
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
| Texto Completo: | http://hdl.handle.net/10362/127526 |
Resumo: | The purpose of this thesis was to produce FucoPol based structures and study their stability, under several conditions, in order to determine whether these structures could be applicable for bioremediation applications. For the first time, an attempt to immobilize cells in these structures matrices was also successfully performed. In this work FucoPol was produced. This exopolysaccharide were synthesized by the bacterium Enterobacter A47 and produced, using glycerol as the carbon source, in a fed-batch cultivation process. FucoPol is composed of fucose, glucose, galactose and glucuronic acid, and also contains acyl groups. The recently demonstrated gel-forming capacity of FucoPol was applied to the production of FucoPol hydrogels, films and beads. The work focused on FucoPol hydrogel structures, as they better fit the desired parameters for bioremediation applications. The stability studies revealed that FucoPol hydrogels were very stable and resistant in aqueous media (deionized water and NaCl 0.9% (w/v) aqueous solution) and under the effect of Na+ and K+ ions. The pH effect on these gels is not fully understood, but it appears that FucoPol hydrogels are more stable at more low and intermediate pH ranges (~3.5 – 7.0). FucoPol gels also revealed to be quite stable and resistant in agitation conditions, lasting between 10 to 13 weeks in these conditions. It was also reported that FucoPol hydrogels destabilized, and rapidly disintegrated in the presence of phosphate ion (PO43-), similar to that observed in Ca-alginate hydrogels. The preferential range of phosphate ion concentration, in which FucoPol hydrogels can be applied, it was also determined in [0.01; 0.4] ([PO43-] gL-1), where the hydrogel structures could last for about 1 to 9 weeks. Immobilization of inocula (P. chlororaphis and Biotask commercial inocula) in FucoPol hydrogels was very successful in the conditions presented in this work, with cellular growth being recorded in media that only contained FucoPol gel with immobilized cells. Despite these results, immobilization method should be optimized in future work in order to obtain greater cellular growth and a slower degradation of the FucoPol matrices. FucoPol hydrogels were characterized in terms of physical appearance, mechanical and morphologic properties. Inoculated hydrogels presented some differences from the non-inoculated ones. The mechanical properties of FucoPol hydrogels in general revealed relatively weak properties, but FucoPol based hydrogels presented improved mechanical properties compared with inoculated hydrogels. All the structures revealed an elastic behavior, evidenced by their high springiness. SEM images demonstrated that the three FucoPol hydrogel structures in study have different morphology, with non-inoculated FucoPol gels presenting a matrix with the smallest pores, which is in accordance with the observed differences in physical appearance of these structures. Since FucoPol hydrogels produced are non-cytotoxic, biodegradables and quite stable and resistant under several conditions, combined with the fact that cell immobilization in the gel matrix is feasible without affecting the cell viability, these structures proved to have the potential to be implemented in bioremediation applications, when a proper optimization of the final product will be achieved. |
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Utilization of FucoPol for commercial inocula immobilization for bioremediation applicationsFucoPolhydrogelsexopolysaccharidescell immobilizationbioremediationDomínio/Área Científica::Engenharia e Tecnologia::Engenharia QuímicaThe purpose of this thesis was to produce FucoPol based structures and study their stability, under several conditions, in order to determine whether these structures could be applicable for bioremediation applications. For the first time, an attempt to immobilize cells in these structures matrices was also successfully performed. In this work FucoPol was produced. This exopolysaccharide were synthesized by the bacterium Enterobacter A47 and produced, using glycerol as the carbon source, in a fed-batch cultivation process. FucoPol is composed of fucose, glucose, galactose and glucuronic acid, and also contains acyl groups. The recently demonstrated gel-forming capacity of FucoPol was applied to the production of FucoPol hydrogels, films and beads. The work focused on FucoPol hydrogel structures, as they better fit the desired parameters for bioremediation applications. The stability studies revealed that FucoPol hydrogels were very stable and resistant in aqueous media (deionized water and NaCl 0.9% (w/v) aqueous solution) and under the effect of Na+ and K+ ions. The pH effect on these gels is not fully understood, but it appears that FucoPol hydrogels are more stable at more low and intermediate pH ranges (~3.5 – 7.0). FucoPol gels also revealed to be quite stable and resistant in agitation conditions, lasting between 10 to 13 weeks in these conditions. It was also reported that FucoPol hydrogels destabilized, and rapidly disintegrated in the presence of phosphate ion (PO43-), similar to that observed in Ca-alginate hydrogels. The preferential range of phosphate ion concentration, in which FucoPol hydrogels can be applied, it was also determined in [0.01; 0.4] ([PO43-] gL-1), where the hydrogel structures could last for about 1 to 9 weeks. Immobilization of inocula (P. chlororaphis and Biotask commercial inocula) in FucoPol hydrogels was very successful in the conditions presented in this work, with cellular growth being recorded in media that only contained FucoPol gel with immobilized cells. Despite these results, immobilization method should be optimized in future work in order to obtain greater cellular growth and a slower degradation of the FucoPol matrices. FucoPol hydrogels were characterized in terms of physical appearance, mechanical and morphologic properties. Inoculated hydrogels presented some differences from the non-inoculated ones. The mechanical properties of FucoPol hydrogels in general revealed relatively weak properties, but FucoPol based hydrogels presented improved mechanical properties compared with inoculated hydrogels. All the structures revealed an elastic behavior, evidenced by their high springiness. SEM images demonstrated that the three FucoPol hydrogel structures in study have different morphology, with non-inoculated FucoPol gels presenting a matrix with the smallest pores, which is in accordance with the observed differences in physical appearance of these structures. Since FucoPol hydrogels produced are non-cytotoxic, biodegradables and quite stable and resistant under several conditions, combined with the fact that cell immobilization in the gel matrix is feasible without affecting the cell viability, these structures proved to have the potential to be implemented in bioremediation applications, when a proper optimization of the final product will be achieved.O objetivo desta tese foi produzir estruturas de FucoPol e estudar a sua estabilidade, sob diversas condições, com o propósito de determinar se estas estruturas poderiam ser implementadas em aplicações de biorremediação. Foi realizada, pela primeira vez e com sucesso, uma tentativa de imobilizar células na matriz destas estruturas. Neste trabalho produziu-se FucoPol. Este exopolissacárido foi sintetizado pela bactéria Enterobacter A47 e produzido, utilizando glicerol como fonte de carbono, através de um processo de cultivo fed-batch. O FucoPol é composto por fucose, glicose, galactose e ácido glucurônico, tendo também na sua composição grupos acilo. A recentemente demonstrada capacidade de formação de gel do FucoPol foi aplicada à produção de hidrogéis, filmes e esferas de FucoPol. O trabalho focou-se apenas nas estruturas de hidrogel de FucoPol, visto serem estas as estruturas que melhor se adaptam aos parâmetros desejados para aplicações de biorremediação. Os estudos de estabilidade revelaram que os hidrogéis de FucoPol foram muito estáveis e resistentes em meio aquoso (água desionizada e solução aquosa de NaCl 0,9% (p / v)) e sob o efeito dos iões Na+ e K+. O efeito do pH nestes géis não é totalmente compreendido, mas parece que os hidrogéis de FucoPol são mais estáveis em gamas de pH mais baixas e intermediárias (~ 3,5 - 7,0). Os géis de FucoPol também se revelaram bastante estáveis e resistentes em condições de agitação, durando entre 10 a 13 semanas nessas condições. Foi também reportado neste trabalho que os hidrogéis de FucoPol destabilizam e desintegram-se rapidamente na presença de ião fosfato (PO43-), semelhante ao observado em hidrogéis de alginato de cálcio. A gama preferencial de concentração de ião fosfato, na qual os hidrogéis de FucoPol podem ser aplicados, também foi determinada em [0.01; 0.4] ([PO43-] g L-1), onde as estruturas de hidrogel podem durar até cerca de 1 a 9 semanas. A imobilização de inóculos (P. chlororaphis e inóculos comerciais da Biotask) nos hidrogéis de FucoPol foi muito bem-sucedida, nas condições apresentadas neste trabalho, registando-se crescimento celular nos meios que continham apenas gel de FucoPol com células imobilizadas. Apesar destes resultados, o método de imobilização deve ser otimizado por forma a obter maiores crescimentos celulares e uma degradação mais lenta das matrizes de FucoPol. Os hidrogéis de FucoPol foram caracterizados em termos de aparência física, propriedades mecânicas e morfológicas. Os hidrogéis inoculados apresentaram algumas diferenças em relação aos não inoculados. As propriedades mecânicas dos hidrogéis de FucoPol, em geral, revelaram propriedades relativamente fracas, no entanto os hidrogéis à base de FucoPol apresentaram propriedades mecânicas melhoradas, quando comparados com os hidrogéis inoculados. Todas as estruturas revelaram comportamento elástico, evidenciado pelos valores relativamente altos de elasticidade. As imagens de SEM demonstraram que as três estruturas de hidrogel de FucoPol em estudo têm morfologia diferente, com os géis de FucoPol não inoculados apresentando uma matriz com poros de menores dimensões, o que está de acordo com as diferenças observadas na aparência física das estruturas. Como os hidrogéis de FucoPol produzidos são não citotóxicos, biodegradáveis e bastante estáveis e resistentes em diversas condições, aliado ao fato de a imobilização celular na matriz de gel ser exequível sem afetar a viabilidade celular, estas estruturas demonstraram ter potencial para serem implementadas em aplicações de biorremediação, quando uma otimização adequada do produto final for alcançada.Freitas, FilomenaTeixeira, PedroRUNLourenço, Inês Alexandra Mariano2021-11-11T15:08:18Z2021-072021-07-01T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10362/127526enginfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2024-03-11T05:07:29Zoai:run.unl.pt:10362/127526Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T03:46:08.905709Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
| dc.title.none.fl_str_mv |
Utilization of FucoPol for commercial inocula immobilization for bioremediation applications |
| title |
Utilization of FucoPol for commercial inocula immobilization for bioremediation applications |
| spellingShingle |
Utilization of FucoPol for commercial inocula immobilization for bioremediation applications Lourenço, Inês Alexandra Mariano FucoPol hydrogels exopolysaccharides cell immobilization bioremediation Domínio/Área Científica::Engenharia e Tecnologia::Engenharia Química |
| title_short |
Utilization of FucoPol for commercial inocula immobilization for bioremediation applications |
| title_full |
Utilization of FucoPol for commercial inocula immobilization for bioremediation applications |
| title_fullStr |
Utilization of FucoPol for commercial inocula immobilization for bioremediation applications |
| title_full_unstemmed |
Utilization of FucoPol for commercial inocula immobilization for bioremediation applications |
| title_sort |
Utilization of FucoPol for commercial inocula immobilization for bioremediation applications |
| author |
Lourenço, Inês Alexandra Mariano |
| author_facet |
Lourenço, Inês Alexandra Mariano |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Freitas, Filomena Teixeira, Pedro RUN |
| dc.contributor.author.fl_str_mv |
Lourenço, Inês Alexandra Mariano |
| dc.subject.por.fl_str_mv |
FucoPol hydrogels exopolysaccharides cell immobilization bioremediation Domínio/Área Científica::Engenharia e Tecnologia::Engenharia Química |
| topic |
FucoPol hydrogels exopolysaccharides cell immobilization bioremediation Domínio/Área Científica::Engenharia e Tecnologia::Engenharia Química |
| description |
The purpose of this thesis was to produce FucoPol based structures and study their stability, under several conditions, in order to determine whether these structures could be applicable for bioremediation applications. For the first time, an attempt to immobilize cells in these structures matrices was also successfully performed. In this work FucoPol was produced. This exopolysaccharide were synthesized by the bacterium Enterobacter A47 and produced, using glycerol as the carbon source, in a fed-batch cultivation process. FucoPol is composed of fucose, glucose, galactose and glucuronic acid, and also contains acyl groups. The recently demonstrated gel-forming capacity of FucoPol was applied to the production of FucoPol hydrogels, films and beads. The work focused on FucoPol hydrogel structures, as they better fit the desired parameters for bioremediation applications. The stability studies revealed that FucoPol hydrogels were very stable and resistant in aqueous media (deionized water and NaCl 0.9% (w/v) aqueous solution) and under the effect of Na+ and K+ ions. The pH effect on these gels is not fully understood, but it appears that FucoPol hydrogels are more stable at more low and intermediate pH ranges (~3.5 – 7.0). FucoPol gels also revealed to be quite stable and resistant in agitation conditions, lasting between 10 to 13 weeks in these conditions. It was also reported that FucoPol hydrogels destabilized, and rapidly disintegrated in the presence of phosphate ion (PO43-), similar to that observed in Ca-alginate hydrogels. The preferential range of phosphate ion concentration, in which FucoPol hydrogels can be applied, it was also determined in [0.01; 0.4] ([PO43-] gL-1), where the hydrogel structures could last for about 1 to 9 weeks. Immobilization of inocula (P. chlororaphis and Biotask commercial inocula) in FucoPol hydrogels was very successful in the conditions presented in this work, with cellular growth being recorded in media that only contained FucoPol gel with immobilized cells. Despite these results, immobilization method should be optimized in future work in order to obtain greater cellular growth and a slower degradation of the FucoPol matrices. FucoPol hydrogels were characterized in terms of physical appearance, mechanical and morphologic properties. Inoculated hydrogels presented some differences from the non-inoculated ones. The mechanical properties of FucoPol hydrogels in general revealed relatively weak properties, but FucoPol based hydrogels presented improved mechanical properties compared with inoculated hydrogels. All the structures revealed an elastic behavior, evidenced by their high springiness. SEM images demonstrated that the three FucoPol hydrogel structures in study have different morphology, with non-inoculated FucoPol gels presenting a matrix with the smallest pores, which is in accordance with the observed differences in physical appearance of these structures. Since FucoPol hydrogels produced are non-cytotoxic, biodegradables and quite stable and resistant under several conditions, combined with the fact that cell immobilization in the gel matrix is feasible without affecting the cell viability, these structures proved to have the potential to be implemented in bioremediation applications, when a proper optimization of the final product will be achieved. |
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2021 |
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2021-11-11T15:08:18Z 2021-07 2021-07-01T00:00:00Z |
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