Alternate header for print version


Licensing
This image is copyright protected. Any public or private use of this image is subject to prevailing copyright laws. Please contact the content provider of this image for permission requests.
tweet  
*CIL – Cell Image Library accession number. Please use this to reference an image.

CIL:23604*  Cite 
Description

Spindle oscillation in kar9delta cells arrested in S phase. In wild-type cells, the spindle moves in both directions through the bud neck; these movements coincide with lateral sliding of a cytoplasmic microtubule along the cell cortex (in movie S1, CIL# 23599). In kar9delta cells, short preanaphase spindles oscillate across the bud neck, moving completely between the mother and bud. Movie plays at 50x real time and is Movie S3 in Proc Natl Acad Sci. 2009. 106: 5147-5152.

Technical Details

S. cerevisiae (MATa kar9delta::hygB ura3-52 lys2-801 leu2-delta1::GFP-TUB1::LEU2 his3-delta200 trp1-delta63) expressing GFP-tubulin (GFP-TUB1) were arrested in hydroxyurea and mounted on agarose pads for microscopy. Images were captured on an Olympus Bmax-60F microscope equipped with a 1.35NA 100× UPlanApo objective, spinning disc Confocal Scanner Unit (CSU10), Picarro Cyan laser (488 nm), and a Stanford Photonics XR-Mega10 ICCD camera, by using QED software (Media Cybernetics). Image analysis was performed by using ImageJ. Timelapse images were captured at 10-s intervals for 15 min and each image in the movie represents a composite of 9 planes separated by 500 nm.

Biological Sources
NCBI Organism Classification
Saccharomyces cerevisiae S288c
Cell Line
kar9delta
Cellular Component
spindle pole body
cytoplasmic microtubule
microtubule
Attribution
Names
Jeffrey K. Moore
David Sept
John A. Cooper
Published
Proc Natl Acad Sci. 2009. 106: 5147-5152.
Pubmed
19279216
Citation
Digital Object Identifier (DOI)
doi:10.7295/W9CIL23604
Archival Resource Key (ARK)
ark:/b7295/w9cil23604
Grouping This image is part of a group.
Imaging
Image Type
recorded image
Image Mode
spinning disk confocal microscopy
time lapse microscopy
Parameters Imaged
fluorescence emission
Source of Contrast
distribution of a specific protein
Visualization Methods
EGFP
Processing History
each frame is a composite of 9 planes
Data Qualifiers
processed data
Sample Preparation
Methods
living tissue
Relation To Intact Cell
whole mounted tissue
Dimensions
Spatial Axis Image Size Pixel Size
X 332px ——
Y 298px ——
Time 10 seconds 97