Search results for "di-4-ANEPPDHQ"
showing 5 items of 5 documents
Ratiometric fluorescence live imaging analysis of membrane lipid order in Arabidopsis mitotic cells using a lipid order-sensitive probe
2016
SPE Pôle IPM; International audience; Eukaryotic cells contain membranes exhibiting different levels of lipid order mostly related to their relative amount of sterol-rich domains, thought to mediate temporal and spatial organization of cellular processes. We previously provided evidence in Arabidopsis thaliana that sterols are crucial for execution of cytokinesis, the last stage of cell division. Recently, we used di-4-ANEPPDHQ, a fluorescent probe sensitive to order of lipid phases, to quantify the level of membrane order of the cell plate, the membrane structure separating daughter cells during somatic cytokinesis of higher plant cells. By employing quantitative, ratiometric fluorescence …
Utilisation de la technique du FRAP pour évaluer la fluidité de la membrane plasmique de cellules végétales en suspension
2014
Transportan 10 Induces Perturbation and Pores Formation in Giant Plasma Membrane Vesicles Derived from Cancer Liver Cells
2023
Continuous progress has been made in the development of new molecules for therapeutic purposes. This is driven by the need to address several challenges such as molecular instability and biocompatibility, difficulties in crossing the plasma membrane, and the development of host resistance. In this context, cell-penetrating peptides (CPPs) constitute a promising tool for the development of new therapies due to their intrinsic ability to deliver therapeutic molecules to cells and tissues. These short peptides have gained increasing attention for applications in drug delivery as well as for their antimicrobial and anticancer activity but the general rules regulating the events involved in cell…
Évaluation de la fluidité de la membrane plasmique avec la sonde fluorescente di-4-ANEPPDHQ: Adaptation de la technique de recouvrement de fluorescen…
2011
National audience; Au cours de l’interaction entre plantes et microorganismes, la membrane plasmique joue un rôle essentiel dans l’organisation précoce des mécanismes de réactions de défense mises en place par la plante. L’équipe Dynamique membranaire et réponse aux stress biotiques, de l’UMR Plante-Microbe-Environnement, s’intéresse aux modifications des propriétés du plasmalemme des cellules végétales dans ce type d’interactions. La fluidité membranaire est une de ces propriétés. La technique de retour de fluorescence après photoblanchiment (FRAP), réalisée à l’aide d’un microscope confocal à balayage laser, a été adaptée à l’étude des variations de la fluidité de la membrane plasmique de…