Cleavage Furrow
Plant cells have a cell plate that forms during cytokinesis, while animal cells form a cleavage furrow. The cell plate is made of vesicles carrying cell wall components that fuse at the division plane to form a new cell wall. This structure is unique to plant cells and allows them to complete cell division without pinching in like animal cells do.
In plant cells, cytokinesis involves the formation of a cell plate due to the presence of a rigid cell wall, while in animal cells, cytokinesis involves the formation of a cleavage furrow that pinches the cell into two. Plant cells also have unique structures called phragmoplasts that aid in cell plate formation during cytokinesis, which animal cells lack.
A cell plate forms midway between the divided nuclei during cytokinesis in plant cells. This cell plate ultimately develops into a new cell wall that separates the two daughter cells.
The formation of a cell plate occurs during cytokinesis in plant cells. It is formed by vesicles from the Golgi apparatus that fuse together at the metaphase plate to create a new cell wall between the two daughter cells.
Cytokinesis, the final stage of the cell cycle, occurs after mitosis. This is when the cytoplasm of the parent cell is divided into two daughter cells. In plant cells, a cell plate forms between the two nuclei during cytokinesis, ultimately leading to the formation of two separate plant cells.
a cell plate
Plant cells have a cell plate that forms during cytokinesis, while animal cells form a cleavage furrow. The cell plate is made of vesicles carrying cell wall components that fuse at the division plane to form a new cell wall. This structure is unique to plant cells and allows them to complete cell division without pinching in like animal cells do.
In plant cells, cytokinesis involves the formation of a cell plate due to the presence of a rigid cell wall, while in animal cells, cytokinesis involves the formation of a cleavage furrow that pinches the cell into two. Plant cells also have unique structures called phragmoplasts that aid in cell plate formation during cytokinesis, which animal cells lack.
A cell plate forms midway between the divided nuclei during cytokinesis in plant cells. This cell plate ultimately develops into a new cell wall that separates the two daughter cells.
In cells with a cell wall plates forms and seperates the new cells which animal cels can not do.
They are not so different. I am aware of two major differences: 1. Centrioles are not present in plant cells. Other structures are present to assemble and organise the spindle fibres. 2. At the end of telophase, there is no cleavage of the cytoplasm; Rather the Golgi apparatus pinches off vesicles which deposit to form a new cell wall. This is how cytokinesis takes place in plant cells, in contrast with animal cells where the cytoplasm cleaves.
The major in cell division (cytokinesis) in plant and animal cells is in plant cells, meiosis is only undergone from a spore to a sporophyte (from 2n to n) whereas in the animal cells, meiosis splits the sex cells into 4 new cells.
The formation of a cell plate occurs during cytokinesis in plant cells. It is formed by vesicles from the Golgi apparatus that fuse together at the metaphase plate to create a new cell wall between the two daughter cells.
Plant cells have a cell plate that forms between the two daughter cells during cytokinesis, which eventually develops into a new cell wall. This structure is unique to plant cells and is not found in animal cells.
A plant cell is the type of cell that forms a cell plate during cytokinesis. This structure helps in dividing the cytoplasm during cell division. Animal cells typically undergo cytokinesis by forming a cleavage furrow, while amoebas use a process known as binary fission.
Cytokinesis, the final stage of the cell cycle, occurs after mitosis. This is when the cytoplasm of the parent cell is divided into two daughter cells. In plant cells, a cell plate forms between the two nuclei during cytokinesis, ultimately leading to the formation of two separate plant cells.
Well in theory everything plays a role in cytokinesis. From photosynthesis and respiration in plant cells to provide and release energy for the process, to a person undergoing respiration to return carbon atoms to the environment to provide material for additional cell division (in which cytokinesis is a part of the process).