{"CIL_CCDB":{"Status":{"Is_public":true,"Deleted":false,"Publish_time":1293858000},"Data_type":{"Still_image":false,"Z_stack":false,"Video":true,"Time_series":false},"CIL":{"Image_files":[{"File_type":"Mp4","File_path":"11837_web.mp4","Size":542995,"Mime_type":"video\/mp4"},{"File_type":"Zip","File_path":"11837.zip","Size":6021248,"Mime_type":"application\/zip"},{"File_type":"Jpeg","File_path":"11837.jpg","Size":38450,"Mime_type":"image\/jpeg; charset=utf-8"}],"CORE":{"ATTRIBUTION":{"PUBLISHED":["J Cell Biol, 161:845-851, 2003"],"Contributors":["Torsten Wittmann","Gary M. Bokoch","Clare M. Waterman-Storer"],"PUBMED":["12796474"]},"BIOLOGICALPROCESS":{"onto_name":"microtubule polymerization","onto_id":"GO:0046785"},"PROCESSINGHISTORY":{"onto_name":"unprocessed raw data","onto_id":"FBbi:00000582"},"CELLLINE":{"onto_name":"Pt K1 (NBL-3)","onto_id":"MCC:0000388"},"PARAMETERIMAGED":{"onto_name":"fluorescence emission","onto_id":"FBbi:00000316"},"IMAGEDESCRIPTION":{"free_text":"Microtubules in a dominant-negative Rac1(T17N)-expressing PtK1 cell. Microtubules do not undergo retrograde flow, and microtubules rapidly switch between growth and shortening phases with little net change in length over time. The cell was microinjected with X-rhodamine-conjugated tubulin and an EGFP-Rac1(T17N) expression plasmid, and was observed by fluorescence microscopy.  Epifluorescence image series were acquired on an inverted microscope (model TE300; Nikon) equipped with electronically controlled shutters, filter wheels, and a 14-bit cooled CCD camera (Orca II; Hamamatsu Corporation) controlled by MetaMorph® software (Universal Imaging Corp.) at 5-s intervals using a 60\/1.4 NA Plan Apo objective lens (Nikon).  Images were taken every 5 s and are played back at 15 frames\/s. For still images, see Fig. 3 of associated paper (J Cell Biol, 161:845-851, 2003)."},"ITEMTYPE":{"onto_name":"recorded image","onto_id":"FBbi:00000265"},"CELLULARCOMPONENT":{"onto_name":"microtubule","onto_id":"GO:0005874"},"RELATIONTOINTACTCELL":{"onto_name":"dispersed cells in vitro","onto_id":"FBbi:00000611"},"SOURCEOFCONTRAST":{"onto_name":"distribution of a specific protein","onto_id":"FBbi:00000597"},"GROUP_ID":"4105","MOLECULARFUNCTION":{"free_text":"dominant-negative Rac"},"DATAQUALIFICATION":{"free_text":"RAW;intensitiesquantitation"},"TERMSANDCONDITIONS":{"free_text":"attribution_nc_sa"},"IMAGINGMODE":{"onto_name":"fluorescence microscopy","onto_id":"FBbi:00000246"},"DIMENSION":[{"Space":{"Image_size":475,"Pixel_size":{"unit":"microns","value":0.043},"axis":"X"}},{"Space":{"Image_size":450,"Pixel_size":{"unit":"microns","value":0.043},"axis":"Y"}}],"NCBIORGANISMALCLASSIFICATION":{"onto_name":"Potorous tridactylus","onto_id":"NCBITaxon:9310"},"PREPARATION":{"onto_name":"living tissue","onto_id":"FBbi:00000025"},"VISUALIZATIONMETHODS":{"onto_name":"X-Rhodamine","onto_id":"FBbi:00000584"},"CELLTYPE":{"onto_name":"epithelial cell","onto_id":"CL:0000066"}}},"Citation":{"Title":"Torsten Wittmann, Gary M. Bokoch, Clare M. Waterman-Storer (2011) CIL:11837, Potorous tridactylus, epithelial cell. CIL. Dataset","ARK":"ark:\/b7295\/w9cil11837","DOI":"doi:10.7295\/W9CIL11837"}}}