Figure 1 Syncytia - Multinuclear Cell, Respond to the expression
of measles virus genes. |
Figure 2 Syncytium in action. |
Figure 3 E.M. of measles virus particles at different stages
of budding from an acute infected host cell. |
Figure 4 E.M. of measles virus particle. |
Figure 5 Microarrays to assess which genes are active in a
given cell. To see if we can discover a connection between certain
genes and cell fusion. |
Figure 6 A proof of principles: measles virus
accessories in cancer gene therapy. |
Figure 7 Living Entamoeba histolytica. |
Figure 8 Entamoeba histolyticastained wtih acridine
orange. |
Figure 9 Schematic drawing of measles virus. |
Figure 10 Fusion and syncytia formation. |
Figure 11 Hemadsorption of monkey red blood cells. |
Figure 12 E.M. of measles virus particle
|
Figure 13 "EM of measles virus particles at different stages
of budding" |
Figure 14
"Measles virus budding" |
Figure 15
"A multinuclear cell" |
Figure 16
"2-for a Tango" |
Figure 17
"A multinuclear cell" |
Figure 18
"Classical Heterokaryon: Monkey
cells fused with Mouse cells
by UV Inactivated Sendai Virus" |
Figure 19
"Classical Heterokaryon: Monkey
cells fused with Mouse cells
by UV Inactivated Sendai Virus" |
Fusion movie (50MB)
"click on the image
to see the movie" |
Figure 20
"Blue" multinuclear cell. |
Figure 21
Multinuclear cell fusion in progress |
Figure 22
Three Measles virus particles. |
Figure 23
RNP of measles virus |
Figure 24
Entamoeba rDNA.PBR-322 at the center
as size marker. |
Figure 25
Entamoeba stained with Et-Br |
Figure 26
Hemadsorption. Adsorption of monkey red
blood cells to a multinuclear cell obtained by expressing HA and
F genes of measles virus |
Figure 27
"It takes two to tango but only one to lead."
Hemadsorption of monkey red blood cells to recombinant virus infected
cells:
A. Vaccinia expressing the fusion gene.
B. Vaccinia expressing the hemagglutinin gene. |
Figure 28
Enders measles virus and Rozenblatt |
Figure 29
FATE of a multinuclear cell. Monkey VERO cells infected with measles
virus.
Hours post infection of the very same location.
|
Fig 30A
Multinuclear cells stained to demonstrate NUCLEI , TUBULIN and
ACTIN filaments
|
Figure 30B Multinuclear cells stained
to demonstrate NUCLEI , TUBULIN and ACTIN filaments
|
Figure 30C
Multinuclear cells stained to demonstrate NUCLEI , TUBULIN and
ACTIN filaments
|
Figure 30D
Multinuclear cell stained to demonstrate NUCLEI , Paxillin and
ACTIN Filaments.
|
Fig 31
Osteoclasts are large multinucleated cells.
RAW-264.7 induced to differentiate , stained with crystal violet.
|
Fig 32
A Fixed and Stained Multinuclear Osteoclast |
Figure 33
Right to left: Ian Wilmut, Ephraim Katzir and Shmuel Rozenblatt |