{"CIL_CCDB":{"Status":{"Is_public":true,"Deleted":false,"Publish_time":1291698000},"Data_type":{"Still_image":false,"Z_stack":false,"Video":true,"Time_series":false},"CIL":{"Image_files":[{"File_type":"Jpeg","File_path":"9691.jpg","Size":8876,"Mime_type":"image\/jpeg; charset=utf-8"},{"File_type":"Zip","File_path":"9691.zip","Size":13672572,"Mime_type":"application\/zip"},{"File_type":"Mp4","File_path":"9691_web.mp4","Size":4292200,"Mime_type":"video\/mp4"}],"CORE":{"ATTRIBUTION":{"Contributors":["Tomomi Tani & Richard Allen"],"PUBMED":["10607534"]},"BIOLOGICALPROCESS":{"onto_name":"cellular water homeostasis","onto_id":"GO:0009992"},"PROCESSINGHISTORY":[{"onto_name":"film","onto_id":"FBbi:00000303"},{"onto_name":"unprocessed raw data","onto_id":"FBbi:00000582"}],"PARAMETERIMAGED":{"onto_name":"refractive index","onto_id":"FBbi:00000311"},"IMAGEDESCRIPTION":{"free_text":"Paramecium multimicronucleatum - Video of the Contractile Vacuole Complex. Measuring membrane tension of the in vitro CV. To measure the build up of tension by the CV membrane an in vitro CV surrounded by a thin layer of cytosol containing ATP was mounted on the tip of a holding pipette and a thin glass rod or sphere, mounted on the tip of a microcantilever, was rested on the CV's membrane. During rounding of the CV the sphere or glass rod was pushed upward which is then recorded as an output voltage of a position sensor. This can be converted into force which, in turn, can be converted into tension. The tension of the rounded CV membrane increased 35-fold over the tension of the relaxed membrane. A DVD resolution version of this is available at CIL:10409."},"ITEMTYPE":[{"onto_name":"microscopy","onto_id":"FBbi:00000241"},{"onto_name":"modes of light microscopy","onto_id":"FBbi:00000345"}],"CELLULARCOMPONENT":{"onto_name":"contractile vacuole","onto_id":"GO:0000331"},"RELATIONTOINTACTCELL":{"onto_name":"isolated subcellular component","onto_id":"FBbi:00000579"},"SOURCEOFCONTRAST":{"onto_name":"boundaries between regions with different refractive index","onto_id":"FBbi:00000599"},"GROUP_ID":"2656","TERMSANDCONDITIONS":{"free_text":"public_domain"},"IMAGINGMODE":{"onto_name":"differential interference contrast microscopy","onto_id":"FBbi:00000245"},"DIMENSION":[{"Space":{"Image_size":320,"axis":"X"}},{"Space":{"Image_size":240,"axis":"Y"}}],"NCBIORGANISMALCLASSIFICATION":{"onto_name":"Paramecium multimicronucleatum","onto_id":"NCBITaxon:44030"},"PREPARATION":{"onto_name":"living tissue","onto_id":"FBbi:00000025"},"VISUALIZATIONMETHODS":{"onto_name":"miscellaneous fill","onto_id":"FBbi:00000118"},"CELLTYPE":[{"onto_name":"eukaryotic cell","onto_id":"CL:0000255"},{"free_text":"Eukaryotic Protist"},{"free_text":"Ciliated Protist"}]}},"Citation":{"Title":"Tomomi Tani & Richard Allen (2010) CIL:9691, Paramecium multimicronucleatum, eukaryotic cell, Eukaryotic Protist, Ciliated Protist. CIL. Dataset","ARK":"ark:\/b7295\/w9cil9691","DOI":"doi:10.7295\/W9CIL9691"}}}