1. There are no centrioles in a plant cell whereas they are present in animal cells.
2. In cytokinesis, the final step of mitosis, a cell's cytoplasm separates in half with each half containing one nucleus. An animal cell membrane pinches in, creating a cleavage furrow until the mother cell is pinched in half. In plant cells, a new cell wall is constructed at what was the midline of the mother cell.
3. In plant cell during telophase, phragmoplast (acting myosin microtubules) forms in centre of cell where as in animal cell contractile ring forms approximately midway between the 2 nuclei of the dividing cell.
4. Plant cell has a cell wall & animal cell lacks it 5. In plant cell nuclear and cell division found in special regions called meristems where as in animal cell divides everywhere, all the time.
Yes, mitosis occurs both in plants, as well as animals. Mitosis is the reproduction of an organism's cells. For example, when a woman who is pregnant waits for her child to be born, mitosis occurs. Same thing with plants. Hope that helped!
One way protists differ from plants and animals is that they are typically single-celled organisms, whereas plants and animals are mostly multi-cellular. Additionally, protists exhibit a wider range of structural and functional diversity compared to plants and animals.
In both plants and animals, mitosis is a process of cell division that results in two identical daughter cells. However, in plants, there is no centriole formation during mitosis, while in animals, centrioles play a key role in organizing the mitotic spindle. Additionally, plant cells have a rigid cell wall that constrains the process of cytokinesis, resulting in the formation of a cell plate rather than a cleavage furrow as seen in animal cells.
Most animals undergo mitosis to grow, repair damaged tissues, and replace old or dying cells. This includes mammals, birds, reptiles, amphibians, and fish, among others. Mitosis is a fundamental process in the life cycle of multicellular organisms.
The gametophyte stage is found in plants but not in animals. It is a multicellular, haploid stage in the plant life cycle that produces gametes through mitosis. This stage is an essential part of the alternation of generations in plants.
Yes, mitosis occurs both in plants, as well as animals. Mitosis is the reproduction of an organism's cells. For example, when a woman who is pregnant waits for her child to be born, mitosis occurs. Same thing with plants. Hope that helped!
Plants have a structure called a cell plate which partitions the daughter cell from parent cell.
Mitosis. Meiosis is only concerned in sex cells.
All Eukaryotes, that is plants and animals.
centrioles
It is the process of cell division taking place in somatic cells where two daughter cells are formed which have the same chromosome number as the mother cell and which are identical to the mother cell. It differs in plants and animals: Animals; A centriole formed at the poles. Plants: no centriole Animals: An incision develops between the two cells in the telophase Plants: A cross wall develops between the two cells in the telophase
Mitosis
One way protists differ from plants and animals is that they are typically single-celled organisms, whereas plants and animals are mostly multi-cellular. Additionally, protists exhibit a wider range of structural and functional diversity compared to plants and animals.
one has legs and plants dont
Animals can walk while plants cannot but plants can also move but not in locomotion they can only bent or creep in search of sunlight.
Animals eat meat or plants for energy and plants go through process called Photosynthesis which makes sugar for the plant to eat.
In both plants and animals, mitosis is a process of cell division that results in two identical daughter cells. However, in plants, there is no centriole formation during mitosis, while in animals, centrioles play a key role in organizing the mitotic spindle. Additionally, plant cells have a rigid cell wall that constrains the process of cytokinesis, resulting in the formation of a cell plate rather than a cleavage furrow as seen in animal cells.