Alternate header for print version


Licensing
Public Domain: This image is in the public domain and thus free of any copyright restrictions. However, as is the norm in scientific publishing and as a matter of courtesy, any user should credit the content provider for any public or private use of this image whenever possible. Learn more
tweet  
*CIL – Cell Image Library accession number. Please use this to reference an image.

CIL:18480*  Cite 
Description

Most images show fractures through the outer membrane of mitochondria and SR/T tubules of dyads nestled in long grooves of the mitochondrial surface. All leaflets of the membranes appear in the images. This image is part of the group image CFA00512. TEM magnification 13800X. The negative film was scanned at LBL then reduced in size for upload. Scan step size is 6.3 micron, then reduced in size 4X for upload, for an effective pixel size of 25 micron. Technical details: Heads and tail removed, thorax bisected and immersed in 3% glutaraldehyde buffered in 0.1 M cacodylate buffer. pH 7.2. stored at 4C for several days. Muscle dissected out. Infiltrated in 30% glycerol in water. Frozen in liquid nitrogen cooled Freon, fractured in Balzers 400 Freeze-fracture, shadowed with platinum at 45o angle. Replicas were cleaned with Clorox (to remove tissue and with either sulfuric acid or NaOH to try removing the tracheolae. Replicas examined in a Philips 410 Microscope. Reference for these images: Takekura, H. and Franzini-Armstrong C. The structure of Ca2+ release units in arthropod body muscle indicates an indirect mechanism for excitation-contraction coupling. Biophys. J. 83, 83, 2742-2753, 2002.

Biological Sources
NCBI Organism Classification
damselfly
Cell Type
flight muscle cell
Cellular Component
myofibril
mitochondrion
sarcoplasmic reticulum
Attribution
Names
Clara Franzini-Armstrong
Citation
Digital Object Identifier (DOI)
doi:10.7295/W9CIL18480
Archival Resource Key (ARK)
ark:/b7295/w9cil18480
Grouping This image is part of a group.
Imaging
Image Type
transmission electron microscopy (TEM)
Image Mode
transmission electron microscopy (TEM)
Parameters Imaged
electron density
Source of Contrast
differences in deposition of metal shadow
Visualization Methods
shadowing and plating
Processing History
digitized negative film
Data Qualifiers
raw, unprocessed data
suitable for spatial measurements
Sample Preparation
Methods
glutaraldehyde fixed tissue
freeze_fracture/freeze_etch
Relation To Intact Cell
unembedded tissue
Dimensions
Spatial Axis Image Size Pixel Size
X 2495px 1.81nm
Y 3112px 1.81nm