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Other titre : Design and production of functionalized biopolyesters by methylobacterium extorquens ATCC 55366 : toward new tissue engineering materials

dc.contributor.advisorGroleau, Denisfr
dc.contributor.authorHöfer, Heinrich Friedrich Philipp Till Nikolausfr
dc.date.accessioned2014-05-15T12:41:18Z
dc.date.available2014-05-15T12:41:18Z
dc.date.created2009fr
dc.date.issued2009fr
dc.identifier.isbn9780494641972fr
dc.identifier.urihttp://savoirs.usherbrooke.ca/handle/11143/1926
dc.description.abstractVascular networks are required to support the formation and function of three-dimensional tissues. Biodegradable scaffolds are being considered in order to promote vascularization where natural regeneration of lost or destroyed vascular networks fails. Particularly; composite materials are expected to fulfill the complex demands of a patient's body to support wound healing. Microbial biopolyesters are being regarded as such second and third generation biomaterials. Methylobacterium extorquens is one of several microorganisms that should be considered for the production of advanced polyhydroxyalkanoates (PHAs). M. extorquens displays a distinct advantage in that it is able to utilize methanol as an inexpensive substrate for growth and biopolyester production. The design of functionalized PHAs, which would be made of both saturated short-chain-length (scl, C [less than or equal to] 5) and unsaturated medium-chain-length (mcl, 6 [less than or equal to] C [less than or equal to] 14) monomeric units, aimed at combining desirable material properties of inert scl/mcl-PHAs with those of functionalized mcl-PHAs. By independently inserting the phaC1 or the phaC2 gene from Pseudomonas fluorescens GK13, recombinant M. extorquens strains were obtained which were capable of producing PHAs containing C-C double bonds. A fermentation process was developed to obtain gram quantities of biopolyesters employing the recombinant M. extorquens ATCC 55366 strain which harbored the phaC2 gene of P. fluorescens GK13, the better one of the two strains at incorporating unsaturated monomeric units. The PHAs produced were found in a blend of scl-PHAs and functionalized scl/mcl-PHAs (4 [less than or equal to] C [less than or equal to] 6), which were the products of the native and of the recombinant PHA synthase, respectively. Thermo-mechanical analysis confirmed that the functionalized scl/mcl-PHAs exhibited the desirable material properties expected. This project contributed to current research on polyhydroxyalkanoates at different levels. The terminal double bonds of the functionalized scl/mcl-PHAs are amenable to chemical modifications and could be transformed into reactive functional groups for covalently linking other biomacromolecules. It is anticipated that these biopolyesters will be utilized as tissue engineering materials in the future, due to their functionality and thermo-mechanical properties.fr
dc.language.isoengfr
dc.publisherUniversité de Sherbrookefr
dc.rights© Heinrich Friedrich Philipp Till Nikolaus Höferfr
dc.subjectTissue engineeringfr
dc.subjectThermo-mechanical propertiesfr
dc.subjectMaterial characterizationfr
dc.subjectFermentation in pilot-scale operatorsfr
dc.subjectGenetic modificationfr
dc.subjectMethylobacterium extorquensfr
dc.subjectFunctionalized polyhydroxyalkanoatesfr
dc.subjectBiopolyestersfr
dc.titleConception et production de biopolyesters avec groupements réactifs par Methylobacterium extorquens ATCC 55366 une voie vers de nouveaux matériaux pour l'ingénierie tissulairefr
dc.title.alternativeDesign and production of functionalized biopolyesters by methylobacterium extorquens ATCC 55366 : toward new tissue engineering materialsfr
dc.typeThèsefr
tme.degree.disciplineGénie chimiquefr
tme.degree.grantorFaculté de géniefr
tme.degree.levelDoctoratfr
tme.degree.namePh.D.fr


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