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What plant tissue located at the tips of roots and shoots will differentiate into different plant cells?
meristematic
What does meristem become?
Meristem cells can differentiate into various types of plant cells depending on their location and function. They can develop into cells that form new roots, shoots, leaves, flowers, or other plant structures.
What plant cell is free to differentiate into various kinds of cells?
Meristem cells are undifferentiated cells that can develop into groud, vascular & dermal tissues depending on their location within the plant. In theory most cells can reproduce a full plant through a process known as totipotancy
What region produces cells in a plant?
The region in a plant where cell division and growth occur is called the meristem. Meristematic cells are continuously dividing to produce new cells that differentiate into various plant tissues.
What is an advantage of using pluripotent cells instead of multi potent cells for medical treatments?
Pluripotent cell can differentiate into almost any type of cell.
Do both animal and plant cells retain the ability to differentiate throughout their life?
Plant cells have the ability to differentiate throughout their life, allowing for growth and development. Animal cells typically lose the ability to differentiate once they mature, but certain cells, such as stem cells, retain this ability for repair and regeneration.
What would happen if the cell of a developing plant did not differentiate into guard cells?
the cell will died
What plant tissue located at the tips of roots and shoots will differentiate into different plant cells?
meristematic
What does meristem become?
Meristem cells can differentiate into various types of plant cells depending on their location and function. They can develop into cells that form new roots, shoots, leaves, flowers, or other plant structures.
What plant cell is free to differentiate into various kinds of cells?
Meristem cells are undifferentiated cells that can develop into groud, vascular & dermal tissues depending on their location within the plant. In theory most cells can reproduce a full plant through a process known as totipotancy
What cellular features differentiate plants from animals?
Plants have cell walls made of cellulose, chloroplasts for photosynthesis, and large central vacuoles for storage. Animals lack cell walls and chloroplasts, and have smaller or absent vacuoles. Additionally, plant cells can differentiate into various types of cells as needed, while animal cells are mostly specialized and do not differentiate as easily.
What region produces cells in a plant?
The region in a plant where cell division and growth occur is called the meristem. Meristematic cells are continuously dividing to produce new cells that differentiate into various plant tissues.
What is an advantage of using pluripotent cells instead of multi potent cells for medical treatments?
Pluripotent cell can differentiate into almost any type of cell.
What does meristematic zone mean?
The meristematic zone is a region in plants where actively dividing cells are located, responsible for plant growth and development. These cells have the ability to differentiate into various types of plant tissues.
Are pancreatic stem cells a plant cell?
No, pancreatic stem cells are not plant cells. They are found in the pancreas of animals, including humans, and have the ability to differentiate into various cell types within the pancreas. Plant cells are specific to plants and differ in structure and function from animal cells.
What types of animal cells are most similar to the undifferentiated plant cells in a tissue culture?
The animal cells that are most similar to undifferentiated plant cells in a tissue culture are likely stem cells. Stem cells have the ability to divide and differentiate into various cell types, mimicking the versatility and self-renewal capacity observed in undifferentiated plant cells.
Plant cells are totipotent which means?
Plant cells are totipotent, meaning they have the ability to differentiate into any type of cell within the plant, including specialized cells such as root, stem, or leaf cells. This characteristic allows plants to regenerate from single cells and is the basis for techniques like plant tissue culture and plant cloning.
