Yes, plants have a cytoskeleton.
yes
Since plant cells have a cell wall, their shape remains the same. However, the cell membrane and organelles would shrink if water is lost. Hence, the shape is maintained by the help of the cell wall. :)
I'm going to assume that you are actually trying to ask "What do animal cells do not have that plant cells do?" The answer is cell walls and chlorophyll. Chlorophyll is what is in plant cells have that converts sun light into energy. Cell walls, on the other hand give the plant cells their structure and allow them to grow with out a skeleton, unlike animals.
Cytology (cyto means cell)
The cytoskeleton is the structural framework in a cell ("cyto" refers to cell and "skeleton" refers to a structural framework).
Plant cell
To support the cells structure. Just like you own skeleton
true
i don't know what that word means
Cells transport vesicles inside the cell to move materials around internally. These vesicles are attached via motor proteins to the cyto-skeleton (e.g. via dynein to micro-tubules) where the motor proteins consume ATP to literally 'walk' on the cyto-skeleton to bring its cargo to the desired destination.
cyto-skeloton fibers
she received the woman of the world award 1983 and conducted researches on plant breeding and cyto-genetics
Animal *cells* have cytoplasm (cyto = cell).
Because a plant has no skeleton, its support is found in it's cells. The cells have a rigid cell wall for support and structure.
The cyto plasm is the liquidy substance that is in between the cell membrane and the nucleus. It is known to contain vital organelles (organs) of a cell. This is what i learned after a quarter on cells.
a cytologist cyto- cell
Since plant cells have a cell wall, their shape remains the same. However, the cell membrane and organelles would shrink if water is lost. Hence, the shape is maintained by the help of the cell wall. :)
The Venus Flytrap is a plant and so does not have a skeleton in the usual sense that we think of, that is bones. Plant cells have cellulose in their cell walls which allow them to form rigid structures and stand without the need for an internal skeleton.