Alternate header for print version
Advanced search
Contributors
Help
Submit
Search
menu
Cell Process
Cell Component
Cell Type
Organism
Microbial
Alzheimer's
Data Sets
Center for Research in Biological Systems
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
paramecium cytoplasm
(89 results)
(Not the results you were expecting?)
(Comments)
Still Images
Video/Animation
Z-Stack
Time Series
CIL:13101
NCBI Organism Classification
Paramecium multimicronucleatum
Biological Process
contractile vacuole organization
Cellular Component
contractile vacuole
High resolution image of a longitudinal section through one of the radial arms of the contractile vacuole complex displaying two rows of openings from the smooth spongiome into the collecting canal. T...
CIL:36646
NCBI Organism Classification
Paramecium multimicronucleatum
Biological Process
macronucleus organization
Cellular Component
macronucleus
The macronucleus is the largest organelle in the P. multimicronucleatum cell and can measure 35µm long by 12µm wide. A small fraction of a macronucleus is seen in this micrograph. The chromatin appe...
CIL:13158
NCBI Organism Classification
Paramecium multimicronucleatum
Biological Process
cortical cytoskeleton organization
Cellular Component
cell cortex
The proximal end of the basal body is sometimes the origin of other single microtubules or bundles of microtubules that extend deeper into the cell’s endoplasm. These guide trichocysts, tip first, t...
CIL:21573
NCBI Organism Classification
Paramecium multimicronucleatum
Biological Process
cytoplasm organization
Cellular Component
cytoplasm
Vesicles and early endosomes under the membranelles of the peniculus of the buccal cavity. Cilia and basal bodies are tangentially fractured in this quick-freeze deep-etch preparation. Preendosomal ve...
CIL:36770
NCBI Organism Classification
Paramecium caudatum
Biological Process
Golgi organization
Cellular Component
Golgi apparatus
Dictyosomal elements of the Golgi complex consist of a layer of coated transition vesicles next to a specialized area of ER called the transition zone and two or three highly fenestrated layers of cis...
CIL:38901
NCBI Organism Classification
Paramecium caudatum
Biological Process
cortical cytoskeleton organization
Cellular Component
cell cortex
Stacks of 4 or 5 kinetodesmal fibers occupy the longitudinal ridges in a cross-sectioned cell. The kds lie along the right side of each ridge (cell’s left side), and as the kds are tapered, the smal...
CIL:13135
NCBI Organism Classification
Paramecium multimicronucleatum
Biological Process
defecation
Cellular Component
cytoproct
The somatic basal bodies along the sides of the cytoproct ridge have bundles of microtubules extending into the endoplasm from near their proximal ends. These bundles make contact with the spent vacuo...
CIL:36647
NCBI Organism Classification
Paramecium multimicronucleatum
Biological Process
nuclear pore distribution
Cellular Component
macronucleus
Grazing thin section through the nuclear envelope of a macronucleus. Nuclear pores are packed so tightly that they often form a hexagonal array with 6 pores surrounding a central pore. The pores often...
CIL:12612
NCBI Organism Classification
Paramecium multimicronucleatum
Biological Process
plasma membrane organization
Cellular Component
clathrin coat of endocytic vesicle
High resolution image of a cell sectioned perpendicular to the surface. The parasomal sac ends internally as a coated pit, coated with clathrin. Where the coated pit has pinched off a clathrin-coated ...
CIL:13110
NCBI Organism Classification
Paramecium multimicronucleatum
Biological Process
contractile vacuole organization
Cellular Component
contractile vacuole
Radial arm of the contractile vacuole complex displaying two rows of openings from the smooth spongiome into the collecting canal. Two microtubules separate the two rows of openings. The smooth spongi...
« Previous
1
2
3
4
5
6
7
8
9
Next »
Results per page:
10
20
50
100