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dc.contributor.advisorHajdušek, Ondřej
dc.contributor.advisorMalandrin, Laurence
dc.contributor.authorJalovecká, Marie
dc.date.accessioned2021-12-08T12:55:00Z
dc.date.available2021-12-08T12:55:00Z
dc.date.issued2017
dc.date.submitted2017-08-20
dc.identifier.urihttps://dspace.jcu.cz/handle/123456789/33843
dc.description.abstractGrowing incidence of infections caused by the tick-transmitted protozoan parasite Babesia spp. defines babesiosis as an emerging disease from the aspect of human and veterinary medicine. The thesis provides an insight to biology of two main agents of human babesiosis, Babesia microti and Babesia divergens. We introduce here the fully optimized quantification model of Babesia parasite enabling the detailed investigation of the parasite developmental cycle and identification of molecules playing a role in its acquisition and transmission by the vector Ixodes ricinus. Novel and detailed information about Babesia dissemination within the tick tissues are given by newly implemented visualization and quantification techniques. Special emphasis is paid to parasite development in the tick salivary glands, the primary site responsible for parasite transmission from the vector into the host. Using gene-specific silencing we screene the tick immune pathways including effector molecules and evaluate their role in Babesia acquisition. We also provide a detailed view to Babesia parasite sexual commitment by monitoring its kinetics upon various stimuli. Moreover, a new direction of anti-babesial therapy is proposed by validation of the Babesia proteasome as a drug target. Overall, the research presented in the thesis extends the current knowledge of the Babesia parasite biology including molecular interactions at the tick-Babesia interface and thereby could significantly contribute to a potential control of babesiosis.cze
dc.format180 pages
dc.format180 pages
dc.language.isoeng
dc.publisherJihočeská univerzitacze
dc.rightsBez omezení
dc.subjectBabesia divergenscze
dc.subjectBabesia microticze
dc.subjecttransmission modelcze
dc.subjecttickcze
dc.subjectimmune interactionscze
dc.subjectsignalling pathwayscze
dc.subjectsexual commitmentcze
dc.subjectproteasomecze
dc.subjectBabesia divergenseng
dc.subjectBabesia microtieng
dc.subjecttransmission modeleng
dc.subjecttickeng
dc.subjectimmune interactionseng
dc.subjectsignalling pathwayseng
dc.subjectsexual commitmenteng
dc.subjectproteasomeeng
dc.titleEstablishment of Babesia laboratory model and its experimental applicationcze
dc.title.alternativeEstablishment of Babesia laboratory model and its experimental applicationeng
dc.typedisertační prácecze
dc.identifier.stag29495
dc.description.abstract-translatedGrowing incidence of infections caused by the tick-transmitted protozoan parasite Babesia spp. defines babesiosis as an emerging disease from the aspect of human and veterinary medicine. The thesis provides an insight to biology of two main agents of human babesiosis, Babesia microti and Babesia divergens. We introduce here the fully optimized quantification model of Babesia parasite enabling the detailed investigation of the parasite developmental cycle and identification of molecules playing a role in its acquisition and transmission by the vector Ixodes ricinus. Novel and detailed information about Babesia dissemination within the tick tissues are given by newly implemented visualization and quantification techniques. Special emphasis is paid to parasite development in the tick salivary glands, the primary site responsible for parasite transmission from the vector into the host. Using gene-specific silencing we screene the tick immune pathways including effector molecules and evaluate their role in Babesia acquisition. We also provide a detailed view to Babesia parasite sexual commitment by monitoring its kinetics upon various stimuli. Moreover, a new direction of anti-babesial therapy is proposed by validation of the Babesia proteasome as a drug target. Overall, the research presented in the thesis extends the current knowledge of the Babesia parasite biology including molecular interactions at the tick-Babesia interface and thereby could significantly contribute to a potential control of babesiosis.eng
dc.date.accepted2017-10-20
dc.description.departmentPřírodovědecká fakultacze
dc.thesis.degree-disciplineParazitologiecze
dc.thesis.degree-grantorJihočeská univerzita. Přírodovědecká fakultacze
dc.thesis.degree-namePh.D.
dc.thesis.degree-programBiologiecze
dc.description.gradeDokončená práce s úspěšnou obhajoboucze
dc.contributor.refereeChristenssenm, Monica Florin
dc.contributor.refereeNijhof, Ard M.
dc.contributor.refereeZintl, Annetta


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Zobrazit minimální záznam