TY - THES A1 - Blachutzik, Jörg O. T1 - Visualisierung von Plasmamembran-Domänen in Arabidopsis thaliana T1 - Visualization of plasma membrane domains in Arabidopsis thaliana N2 - Unter Verwendung fluoreszenzmarkierter Remorine der taxonomischen Gruppe 1b wurden Nanodomänen in Arabidopsis Plasmamembranen (PM) unter Verwendung hoch auflösender Laser Scanning-Systeme sichtbar gemacht. In diesen kompartimentierten Membranbereichen lagerten sich Sterol-abhängige Remorine aus verschiedenen Pflanzen-familien zusammen und zeigten dort Kolokalisation. Dies wurde statistisch belegt durch hohe Pearson und Spearman Korrelationskoeffizienten. Remorine konnten schließlich als pflanzliche Markerproteine für kompartimentierte Membranbereiche etabliert werden. Die Nanodomänen zeigten zu keinem Zeitpunkt laterale Bewegungen in der PM und scheinen sowohl von zytoskelettären Strukturen als auch von Komponenten der Zellwand stabilisiert zu werden. Möglicherweise spielen transmembrane Tetraspanine sowie GPI-verankerte SKU5-Proteine eine Rolle bei der stabilen Verankerung. Für zwei native Arabidopsis Remorine wurden posttranslationale Modifikationsstellen aufgedeckt, die der Anheftung dieser hydrophilen Proteine an die PM dienen. Weiterhin scheinen gleichartige Remorine miteinander zu interagieren. Beispielsweise waren im Zytosol lokalisierte Remorin-Mutanten bei einer gleichzeitigen Expression der entsprechenden Vollängenproteine erneut an der PM zu finden. Für die Remorine wurde postuliert, dass sie mit anderen Proteinen interagieren und dabei makromolekulare Strukturen ausbilden. Den Remorinen könnte daher eine Aufgabe bei der molekularen Organisation pflanzlicher Membrandomänen zukommen, indem sie ein filamentartiges Netzwerk innerhalb distinkter Domänen ausbilden, das möglicherweise zur Stabilität und Aufrechterhaltung dieser spezialisierten Bereiche beiträgt. Unter Einbeziehung der STED-Mikroskopie wurde eine empirische Größenverteilung von 97±4nm Durchmesser für PM-ständige Domänen in Arabidopsis ermittelt. Hinsichtlich der physiologischen Relevanz konnte gezeigt werden, dass die Domänen eine Rolle bei der ABA-vermittelten, kalziumabhängigen Regulation des Anionenkanals SLAH3 einnehmen. SLAH3 wird durch kalziumabhängige Kinasen aus der CDPK-Familie aktiviert, im Speziellen durch CPK21 und CPK23. Beide Kinasen werden durch die ABA-sensitiven Phosphatasen ABI1 und ABI2 reguliert. Die spezifisch stattfindenden Interaktionen zwischen SLAH3 und CPK21, sowie zwischen CPK21 und ABI1 waren auf Nanodomänen beschränkt und wurden durch die Methodik der bimolekularen Fluoreszenzkomplementation erstmals in planta nachgewiesen, mit Remorinen der taxonomischen Gruppe 1b als etablierte Markerproteine für Membrandomänen. N2 - In this work, membrane nanodomains have been visualized in planta via confocal microscopy of group 1b Remorin proteins fused to fluorescent proteins. Within these nanodomains, sterol-dependent Remorins originating from different plant species accumulated as shown by multiple color colocalization microscopy, and through which it was statistically verified by high Spearman and Pearson correlation coefficients. Thus, group 1b Remorins were established here as reliable marker proteins for plasma membrane (PM) nanodomains in plants. Since individual domains did not exhibit any kind of lateral movement within the plane of the membrane, a stabilization of them from cytoskeletal components as well as from components of the cell wall was presumed. Other proteins such as trans-membrane Tetraspanins and GPI-anchored proteins like SKU5 were ruled out as possible candidates being involved in the maintenance of domains´ lateral stability. For two Remorins originating from Arabidopsis thaliana, sites of posttranslational lipid modifications, which allow the proteins to anchor to the plasma membrane, were revealed. In experiments using truncated Remorins with these modification sites deleted, the mutant Remorins appeared to be no longer located at the PM but rather within the cytosol. Truncated Remorins re-appeared at the PM as soon as the full length Remorin proteins were co-expressed. In close proximity to the sites of lipid modifications a highly conserved C-terminal region, whose likely role is to facilitate homo-Remorin protein interactions, was uncovered. Therefore Remorins could possibly be involved in the molecular organization of a filamentous protein structure that could help mediate the stability and maintenance of individual domains. As well, the sizes of individual nanodomains were empirically measured in Arabidopsis thaliana mesophyll cells with STED microscopy, which allowed for optical measurements of domains with 60nm resolution, and were narrowly distributed in a histogram of domain diameters with an average diameter of 97 ± 4nm. One possible physiological role of PM-based nanodomains was demonstrated to be the ABA-mediated, calcium-dependent regulation of the SLAH3 anion channel. At the inception of the regulation, SLAH3 becomes activated upon phosphorylation by calcium-dependent protein kinases of the CDPK-family, CPK21 and CPK23. Both CPK´s in turn are regulated by the ABA-dependent phosphatases ABI1 and ABI2. As visualized by fluorescence colocalization microscopy for the first time, the interactions between SLAH3 and CPK21, as well as interactions between CPK21 and ABI1 were restricted to PM compartments. As well, these protein interactions were corroborated by also imaging them in planta using the bimolecular fluorescence complementation technique - involving group 1b Remorins as the established marker proteins for PM nanodomains. KW - Plasmamembran KW - Fluoreszmikroskopie KW - Ackerschmalwand KW - plasma membrane KW - fluorescence microscopy KW - Remorin KW - protoplasts KW - Protoplasten Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-71925 ER - TY - JOUR A1 - Blachutzik, Jörg O. A1 - Demir, Faith A1 - Kreuzer, Ines A1 - Hedrich, Rainer A1 - Harms, Gregory S. T1 - Methods of staining and visualization of sphingolipid enriched and non-enriched plasma membrane regions of Arabidopsis thaliana with fluorescent dyes and lipid analogues N2 - Background: Sterols and Sphingolipids form lipid clusters in the plasma membranes of cell types throughout the animal and plant kingdoms. These lipid domains provide a medium for protein signaling complexes at the plasma membrane and are also observed to be principal regions of membrane contact at the inception of infection. We visualized different specific fluorescent lipophilic stains of the both sphingolipid enriched and non-sphingolipid enriched regions in the plasma membranes of live protoplasts of Arabidopsis thaliana. Results: Lipid staining protocols for several fluorescent lipid analogues in plants are presented. The most emphasis was placed on successful protocols for the single and dual staining of sphingolipid enriched regions and exclusion of sphingolipid enriched regions on the plasma membrane of Arabidopsis thaliana protoplasts. A secondary focus was placed to ensure that these staining protocols presented still maintain cell viability. Furthermore, the protocols were successfully tested with the spectrally sensitive dye Laurdan. Conclusion: Almost all existing staining procedures of the plasma membrane with fluorescent lipid analogues are specified for animal cells and tissues. In order to develop lipid staining protocols for plants, procedures were established with critical steps for the plasma membrane staining of Arabidopsis leaf tissue and protoplasts. The success of the plasma membrane staining protocols was additionally verified by measurements of lipid dynamics by the fluorescence recovery after photobleaching technique and by the observation of new phenomena such as time dependent lipid polarization events in living protoplasts, for which a putative physiological relevance is suggested. KW - Arabidopsis thaliana KW - Protoplasts KW - Lipid polarization KW - Lipophilic fluorescent dyes KW - Laurdan KW - Sphingolipid KW - Liquid (dis-) ordered phase KW - Plasma membrane KW - Fluorescence mi Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-75433 ER -