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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

Caracterização e avaliação do papel do gene wcbE de Burkholderia seminalis linhagem TC3.4.2R3 na interação microbiana. / Characterization and evaluation of the role of wcbE gene from Burkholderia seminalis strain TC3.4.2R3 in microbial interaction.

Gonçalves, Priscila Jane Romano de Oliveira 26 June 2017 (has links)
Burkholderia seminalis tem sido encontrada tanto em interações patogênicas, quanto não patogênicas. O gene wcbE codifica uma glicosiltransferase e pertence ao cluster wcb, que está relacionado à síntese de cápsula. O objetivo deste trabalho foi investigar o papel do gene wcbE e da temperatura nas interações microbianas de B. seminalis TC3.4.2R3. A produção de biofilme, EPS e compostos antifúngicos foi maior a 28 ºC. Por outro lado, a motilidade, virulência e respostas ao estresse foram maiores a 37 ºC. wcbE produziu menos biofilme que WT e foi atenuada em G. mellonella a 37 ºC, destacando a importância da glicosiltransferase na patogênese. Além disso, wcbE perdeu a habilidade de inibir fungos fitopatogênicos. Embora B. seminalis seja um membro do Bcc, é eficiente contra patógenos clínicos e ambientais, indicando que esta linhagem pode ter interações múltiplas no ambiente. A temperatura e o gene de glicosiltransferase desempenharam um papel crucial nas interações ambientais de B. seminalis TC3.4.2R3. / Burkholderia seminalis has been found in both pathogenic and nonpathogenic interactions. The wcbE gene encodes a glycosyltransferase and belongs to the wcb cluster, which is related to capsule synthesis. The aim of this work was to investigate the role of the wcbE gene and temperature in the microbial interactions of B. seminalis TC3.4.2R3. The production of biofilm, EPS and antifungal compounds was higher at 28 ºC. On the other hand, the motility, virulence and stress responses were higher at 37 ° C. wcbE produced less biofilm than WT and was attenuated in G. mellonella at 37 ° C, highlighting the importance of glycosyltransferase in the pathogenesis. Furthermore, wcbE lost the ability to inhibit phytopathogenic fungi. Although B. seminalis is a member of Bcc, it is effective against clinical and environmental pathogens, indicating that this strain may have multiple interactions in the environment. The temperature and the glycosyltransferase gene played a crucial role in the environmental interactions of B. seminalis TC3.4.2R3.

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