Synthese und Charakterisierung von Polymerbürsten-Oberflächen mit Gradienten und Strukturierung

Ionov, Leonid.

Unknown Date

Techn. University, Diss., 2005--Dresden. / Text engl.

Role of endocytic trafficking during Dpp gradient formation

Pantazis, Periklis,

January 2005

Dresden, Techn. Univ., Diss., 2005.

Eine Gradientenentwicklung der freien Energie inhomogener einfach polarer Flüssigkeiten und der Zusammenhang der Entwicklungskoeffizienten mit den mikroskopischen Teilchenwechselwirkungen

Roloff, Dieter,

January 1983

Thesis (Doctoral)--Technische Universität Carolo-Wilhelmina zu Braunschweig, 1983.

Role of endocytic trafficking during Dpp gradient formation / Rolle des endozytotischen Transports während der Dpp Gradientenbildung

Pantazis, Periklis

20 December 2004

Morphogens are secreted signalling molecules that are expressed in restricted groups of cells within the developing tissue. From there, they are secreted and travel throughout the target field and form concentration gradients. These concentration profiles endow receiving cells with positional information. A number of experiments in Drosophila demonstrated that the morphogen Decapentaplegic (Dpp) forms activity gradients by inducing the expression of several target genes above distinct concentration thresholds at different distances from the source. This way, Dpp contributes to developmental fates in the target field such as the Drosophila wing disc. Although the tissue distribution as well as the actual shape and size of the Dpp morphogen concentration gradient has been visualized, the cell biological mechanisms through which the morphogen forms and maintains a gradient are still a subject of debate. Two hypotheses as to the dominant mechanism of movement have been proposed that can account for Dpp spreading throughout the Drosophila wing imaginal target tissue: extracellular diffusion and planar transcytosis, i. e. endocytosis and resecretion of the ligand that is thereby transported through the cells. Here, I present data indicating that implications of a theoreticalanalysis of Dpp spreading, where Dpp transport through the target tissue is solely based on extracellular diffusion taking into account receptor binding and subsequent internalization, are inconsistent with experimental results. By performing Fluorescence Recovery After Photobleaching (FRAP) experiments, I demonstrate a key role of Dynamin-mediated endocytosis for Dpp gradient formation. In addition, I show that most of GFP-Dpp traffics through endocytic compartments at the receiving epithelial cells, probably recycled through apical recycling endosomes (ARE). Finally, a Dpp recycling assay based on subcellular photouncage of ligand is presented to address specifically the Dpp recycling event at the receiving cells.

Dpp

Drosophila

Entwicklungsbiologie

Gradient

Morphogen

TGF-[beta]

developmental biology

gradients

morphogens

ddc:570

rvk:WX 6500

Decapentaplegic

Drosophila

Embryologie

Endocytose

Entwicklungsbiologie

Gradient

Gradientenentwicklung

Morphogen

Morphogenese

Taufliege

Role of endocytic trafficking during Dpp gradient formation

Pantazis, Periklis

14 January 2005

Morphogens are secreted signalling molecules that are expressed in restricted groups of cells within the developing tissue. From there, they are secreted and travel throughout the target field and form concentration gradients. These concentration profiles endow receiving cells with positional information. A number of experiments in Drosophila demonstrated that the morphogen Decapentaplegic (Dpp) forms activity gradients by inducing the expression of several target genes above distinct concentration thresholds at different distances from the source. This way, Dpp contributes to developmental fates in the target field such as the Drosophila wing disc. Although the tissue distribution as well as the actual shape and size of the Dpp morphogen concentration gradient has been visualized, the cell biological mechanisms through which the morphogen forms and maintains a gradient are still a subject of debate. Two hypotheses as to the dominant mechanism of movement have been proposed that can account for Dpp spreading throughout the Drosophila wing imaginal target tissue: extracellular diffusion and planar transcytosis, i. e. endocytosis and resecretion of the ligand that is thereby transported through the cells. Here, I present data indicating that implications of a theoreticalanalysis of Dpp spreading, where Dpp transport through the target tissue is solely based on extracellular diffusion taking into account receptor binding and subsequent internalization, are inconsistent with experimental results. By performing Fluorescence Recovery After Photobleaching (FRAP) experiments, I demonstrate a key role of Dynamin-mediated endocytosis for Dpp gradient formation. In addition, I show that most of GFP-Dpp traffics through endocytic compartments at the receiving epithelial cells, probably recycled through apical recycling endosomes (ARE). Finally, a Dpp recycling assay based on subcellular photouncage of ligand is presented to address specifically the Dpp recycling event at the receiving cells.

info:eu-repo/classification/ddc/570

ddc:570