Total Synthesis of Functionalized Cholesteryl α-D-Glucoside Derivative Linked to Exogenic Causes of Parkinson's Disease for Biological Research

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dc.contributor.advisor Fabris, Fabrizio it_IT
dc.contributor.author Lunardon, Sara <1995> it_IT
dc.date.accessioned 2020-02-17 it_IT
dc.date.accessioned 2020-06-16T06:52:15Z
dc.date.issued 2020-03-04 it_IT
dc.identifier.uri http://hdl.handle.net/10579/16938
dc.description.abstract The lysosomal storage accumulation of neurotoxic molecules named glucoside-cholesteryls (GlcChol) due to mutation in the GBA1 enzyme is proved to be strictly correlated to Parkinson's disease. The literature to date on their pathways and interaction with cellular receptor in biological systems is scarce, and their biosynthesis exploiting suitable organisms unsuccessful. Our contribution is to develop an optimized strategy for the total synthesis of a derivative of α-GlcChol, functionalized towards subsequent receptor engagement. The target molecule was obtained in eight synthetic steps. The last step, involving the protected saccharide and the dehydroepiandrosterone derivative, was carried in a confined area, because of the potential hazard of the biologically active final product. The reactive alkyne tail of the final compound can be further functionalized through "click" chemistry with proper azide derivatives such as nano-beads, fluorophores and biotin, to enable cellular reception in biological systems. it_IT
dc.language.iso en it_IT
dc.publisher Università Ca' Foscari Venezia it_IT
dc.rights © Sara Lunardon, 2020 it_IT
dc.title Total Synthesis of Functionalized Cholesteryl α-D-Glucoside Derivative Linked to Exogenic Causes of Parkinson's Disease for Biological Research it_IT
dc.title.alternative Total Synthesis of Functionalized Steryl α-D-Glucoside Derivative Linked to Parkinson's Disease it_IT
dc.type Master's Degree Thesis it_IT
dc.degree.name Chimica e tecnologie sostenibili it_IT
dc.degree.level Laurea magistrale it_IT
dc.degree.grantor Dipartimento di Scienze Molecolari e Nanosistemi it_IT
dc.description.academicyear 2018/2019, sessione straordinaria it_IT
dc.rights.accessrights closedAccess it_IT
dc.thesis.matricno 854196 it_IT
dc.subject.miur CHIM/06 CHIMICA ORGANICA it_IT
dc.description.note it_IT
dc.degree.discipline it_IT
dc.contributor.co-advisor it_IT
dc.date.embargoend 10000-01-01
dc.provenance.upload Sara Lunardon (854196@stud.unive.it), 2020-02-17 it_IT
dc.provenance.plagiarycheck Fabrizio Fabris (fabrisfa@unive.it), 2020-03-02 it_IT


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