Alternate header for print version
Advanced search
Contributors
Help
Submit
Search
menu
Cell Process
Cell Component
Cell Type
Organism
Microbial
Alzheimer's
Data Sets
University of California, San Diego
9500 Gilman Drive
La Jolla, CA 92093-0608, USA
Voice
: (858) 534-0276
Fax
: (858) 534-7497
Email
: dorloff@ncmir.ucsd.edu
Search Results for
Oryctolagus cuniculus
(92 results)
(Not the results you were expecting?)
(Comments)
CIL:6559
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were held at constant length and rigor induced by immersion in glycerol. The fibers were fixed in buffered glutaraldehyde, treated with tannic acid and quick-froze...
CIL:6566
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were held at constant length and rigor induced by immersion in glycerol. The fibers were fixed in buffered glutaraldehyde, treated with tannic acid and quick-froze...
CIL:6261
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were blended in the presence of 5 mM MgATP to dissociate thick and thin filaments. The medium was then gently replaced with 0.3M KCl to dissociate thick filaments....
CIL:830
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit skeletal muscle fibers were minced in an ATP-containing relaxing buffer and dissociated into thick and thin filaments by mild blending. The isolated filaments were then deposited onto mica fla...
CIL:6273
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were blended in the presence of 5 mM MgATP to dissociate thick and thin filaments. The medium was then gently replaced with 0.3M KCl to dissociate thick filaments....
CIL:6554
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were held at constant length and rigor induced by immersion in glycerol. The fibers were fixed in buffered glutaraldehyde, treated with tannic acid and quick-froze...
CIL:6558
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were held at constant length and rigor induced by immersion in glycerol. The fibers were fixed in buffered glutaraldehyde, treated with tannic acid and quick-froze...
CIL:6563
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were held at constant length and rigor induced by immersion in glycerol. The fibers were fixed in buffered glutaraldehyde, treated with tannic acid and quick-froze...
CIL:6564
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were held at constant length and rigor induced by immersion in glycerol. The fibers were fixed in buffered glutaraldehyde, treated with tannic acid and quick-froze...
CIL:6262
NCBI Organism Classification
Oryctolagus cuniculus
Biological Process
skeletal muscle contraction
Cellular Component
cytoskeleton
Rabbit psoas skeletal muscle fibers were blended in the presence of 5 mM MgATP to dissociate thick and thin filaments. The medium was then gently replaced with 0.3M KCl to dissociate thick filaments....
« Previous
1
2
3
4
5
6
7
8
9
10
Next »
Results per page:
10
20
50
100