Search results for "Filopodia"

showing 3 items of 13 documents

Clustering transmembrane-agrin induces filopodia-like processes on axons and dendrites

2005

The transmembrane form of agrin (TM-agrin) is primarily expressed in the CNS, particularly on neurites. To analyze its function, we clustered TM-agrin on neurons using anti-agrin antibodies. On axons from the chick CNS and PNS as well as on axons and dendrites from mouse hippocampal neurons anti-agrin antibodies induced the dose- and time-dependent formation of numerous filopodia-like processes. The processes appeared within minutes after antibody addition and contained a complex cytoskeleton. Formation of processes required calcium, could be inhibited by cytochalasine D, but was not influenced by staurosporine, heparin or pervanadate. Time-lapse video microscopy revealed that the processes…

animal structuresDendritic spineTime FactorsNeuriteCytochalasin BGrowth ConesVideo microscopyChick EmbryoBiologyNervous SystemAntibodiesCellular and Molecular NeuroscienceMicemedicineNeuritesAnimalsAgrinPseudopodiaGrowth coneCytoskeletonMolecular BiologyCells CulturedCytoskeletonAgrinMicroscopy VideoDose-Response Relationship DrugCell MembraneCell DifferentiationCell BiologyDendritesCell biologymedicine.anatomical_structurenervous systemAnimals NewbornNeuronFilopodia
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Follicle Cells of Styela plicata Eggs (Ascidiacea)

2001

Styela plicata eggs are surrounded by large follicle cells that at LM appear as highly vacuolated and columnar in shape; at the apical end of each cell lies a very large and clear vacuole, half of which extends inward. Electron microscope observations show a Single layer of largely spaced box-like follicle cells; the close cell-cell contact at their base is realized by interdigitations. The cell surface shows a peculiar structure, more developed in the latero-basal regions, consisting of a complex of membrane extensions, i.e. microvilli, filopodia and lamellipodia. Filopodia irradiate in all directions towards the adjacent cells and the outermost vitelline coat, thus creating a complex netw…

biologyChemistryVacuoleApical membranebiology.organism_classificationlaw.inventionCell biologyFollicleStyela plicatalawSecretionElectron microscopeLamellipodiumFilopodia
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The Follicle Cells of Styela Plicata (Ascidiacea, Tunicata): A Sem Study

2000

The morphological aspect of the follicle cells of Styela plicata eggs is described by means of scanning electron microscope investigations. The follicular layer is made of spaced, cylindrical box-like cells which are arranged hexagonally. They adhere to the egg through a complex network of membrane extensions making an overall thin layer on the vitelline coat. The walls of the follicle cells are plentifully provided with microvilli, filopodia and lamellipodia, which allow a connection among the cells. At their apical end lies a large vacuole containing a granule, probably involved in secretion. At insemination the majority of spermatozoa is distributed on the apical membrane of the follicle…

biologyGranule (cell biology)VacuoleAnatomyApical membranebiology.organism_classificationCell biologyFollicleStyela plicataembryonic structuresAnimal Science and ZoologyLamellipodiumFilopodiaAscidiaceaZoological Science
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