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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Avaliação de genes para o catabolismo de xilose e seu potencial para geração de bioprodutos. / Evaluation of xylose catabolism genes and their potential for the generation of bioproducts.

Cherix, Juliano 06 April 2015 (has links)
A xilose é um dos principais componentes dos materiais lignocelulósicos, os quais são de grande interesse para produção de bioprodutos como etanol e polihidroxialcanoatos (PHA). Visando melhorar o consumo de xilose em Burkholderia sacchari, uma grande produtora de PHA, os seguintes genes codificadores de xilose isomerase foram nela inseridos e avaliados: xylABs, xylABc, xylAPl, xylABp e xylABx, respectivamente de B. sacchari, B. cenocepacia, Photorhabdus luminescens, B. phymatum e B. xenovorans. Foi ainda sintetizado o gene de B. sacchari (xylA*) no qual foram inseridas modificações descritas na literatura como capazes de aumentar o consumo de xilose em outros organismos. As linhagens recombinantes de B. sacchari abrigando os genes xylABs e xylA* tiveram um aumento de aproximadamente 30%, e aquelas abrigando os genes xylABp e xylABx de 23%, no consumo de xilose quando comparadas com a linhagem controle. Essas quatro linhagens recombinantes foram aquelas que conseguiram produzir maior quantidade de P3HB, aproximadamente 70% a mais do que linhagem controle. / Xylose is a major component of lignocellulosic materials, which are of great interest for the production of bio-products, such as ethanol and polyhydroxyalkanoates (PHA). To improve the consumption of xylose in Burkholderia sacchari, a major PHA producer, the following genes, encoding xylose isomerase, were introduced in these bacteria: xylABs, xylABc, xylAPl, xylABp and xylABx, respectively from B. sacchari, B. cenocepacia, Photorhabdus luminescens, B. phymatum e B. xenovorans. The gene of B. sacchari (xylA*) was also synthesized with several modifications described in the literature as able to increase the consumption of xylose in other organisms. Recombinant strains harboring B. sacchari xylABs and xylA* gene had an increase of approximately 30% in the xylose consumption compared to the control strain, and those harboring xylABx and xylABp gene an increase of 23%. These four recombinant strains were those that were able to produce more P3HB, approximately 70% more than the control strain.
2

Avaliação de genes para o catabolismo de xilose e seu potencial para geração de bioprodutos. / Evaluation of xylose catabolism genes and their potential for the generation of bioproducts.

Juliano Cherix 06 April 2015 (has links)
A xilose é um dos principais componentes dos materiais lignocelulósicos, os quais são de grande interesse para produção de bioprodutos como etanol e polihidroxialcanoatos (PHA). Visando melhorar o consumo de xilose em Burkholderia sacchari, uma grande produtora de PHA, os seguintes genes codificadores de xilose isomerase foram nela inseridos e avaliados: xylABs, xylABc, xylAPl, xylABp e xylABx, respectivamente de B. sacchari, B. cenocepacia, Photorhabdus luminescens, B. phymatum e B. xenovorans. Foi ainda sintetizado o gene de B. sacchari (xylA*) no qual foram inseridas modificações descritas na literatura como capazes de aumentar o consumo de xilose em outros organismos. As linhagens recombinantes de B. sacchari abrigando os genes xylABs e xylA* tiveram um aumento de aproximadamente 30%, e aquelas abrigando os genes xylABp e xylABx de 23%, no consumo de xilose quando comparadas com a linhagem controle. Essas quatro linhagens recombinantes foram aquelas que conseguiram produzir maior quantidade de P3HB, aproximadamente 70% a mais do que linhagem controle. / Xylose is a major component of lignocellulosic materials, which are of great interest for the production of bio-products, such as ethanol and polyhydroxyalkanoates (PHA). To improve the consumption of xylose in Burkholderia sacchari, a major PHA producer, the following genes, encoding xylose isomerase, were introduced in these bacteria: xylABs, xylABc, xylAPl, xylABp and xylABx, respectively from B. sacchari, B. cenocepacia, Photorhabdus luminescens, B. phymatum e B. xenovorans. The gene of B. sacchari (xylA*) was also synthesized with several modifications described in the literature as able to increase the consumption of xylose in other organisms. Recombinant strains harboring B. sacchari xylABs and xylA* gene had an increase of approximately 30% in the xylose consumption compared to the control strain, and those harboring xylABx and xylABp gene an increase of 23%. These four recombinant strains were those that were able to produce more P3HB, approximately 70% more than the control strain.

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