A genetic screen in Drosophila reveals the roles of ArfGEF Gartenzwerg in tube morphogenesis

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dc.contributor.advisorProf. Dr. Achim Paululat
dc.creatorWang, Shuoshuo
dc.date.accessioned2012-09-11T13:16:18Z
dc.date.available2012-09-11T13:16:18Z
dc.date.issued2012-09-11T13:16:18Z
dc.identifier.urihttps://repositorium.ub.uni-osnabrueck.de/handle/urn:nbn:de:gbv:700-2012091110306-
dc.description.abstractBiological tubes possessing a curvilinear form and a hollow interior exist in most multicellular eukaryotes. In Eumetazoa, the tubes usually comprise an eminently complex network and enable the transport and exchange of fluids and gases between tissues and organs, but also between organisms and their environment. Thus, tubular structures are both morphologically and physiologically integral parts of the animals. Based on a genetic screen for novel factors involved in heart tube differentiation and morphogenesis in Drosophila, the identified mutants were subdivided into several classes: cardiac hyperplasia (kuz and mam, both involved in the Notch-dependent cardiomyocyte specification, Publication 1); impaired cytokinesis (pav and tum, both components of the centralspindlin complex); a single ptc mutant showing a “truncated” heart (Publication 2); and a single loss-of-function mutant displaying reduced lumen diameter in epithelial tubes and perturbed secretion of ECM-components. The latter allele was mapped to the gene locus gartenzwerg (garz) that encodes a large ArfGEF. Due to its novelty, garz was selected as a central part of the thesis (Publication 3). Although garz seems to be expressed ubiquitously, its transcripts are abundant in active secreting cells of tubular structures. Moreover, mutations of garz abolish Golgi-integrity, cause massive retention of secretory cargo in the ER and arrest the apical transport of lipids and ECM molecules. As a consequence, lumen of the salivary glands and trachea fail to expand and show a decreased diameter. The observed phenotypes in tracheal network and salivary glands phenocopy those of COPI/COPII-subunits as well as actin-dependent secretion mutants, suggesting the underlying mechanism might be common. Thus, it is supposed that proper tubulogenesis needs Garz for initiation of the Arf1-COPI machinery. Furthermore, Golgi-based post-translational modifications, targeted sorting of vesicles, outward transport of proteins, or directed membrane delivery all depend on the secretory pathway, and such processes are essential in establishing polarized cells which build the tubular structures. In conclusion, this mechanism seems to be neither restricted to tubulogenesis nor specific to Drosophila. Due to the presence of garz homologues in every eukaryotic genomes, the Arf1/COPI based secretory pathway may play a universal role in metazoan development.eng
dc.subjectdevelopmenteng
dc.subjecttube formationeng
dc.subjectArf-GEFeng
dc.subjectGartenzwergeng
dc.subjectGarzeng
dc.subjectDrosophilaeng
dc.subjectCG8487eng
dc.subjecttubulogenesiseng
dc.subjectArfeng
dc.subjectgenetic screeneng
dc.subject.ddc570 - Biowissenschaften; Biologie
dc.titleA genetic screen in Drosophila reveals the roles of ArfGEF Gartenzwerg in tube morphogenesiseng
dc.typeDissertation oder Habilitation [doctoralThesis]-
thesis.locationOsnabrück-
thesis.institutionUniversität-
thesis.typeDissertation [thesis.doctoral]-
thesis.date2012-06-15-
dc.contributor.refereeProf. Dr. Christian Ungermann
dc.subject.bk42.23 - Entwicklungsbiologie
dc.subject.bk42.15 - Zellbiologie
dc.subject.bk42.20 - Genetik
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Enthalten in den Sammlungen:FB05 - E-Dissertationen

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