Amyloplasts are organelles without any pigments found in some plant cells. Large numbers can be found in underground storage tissues of some plants, such as in potato tubers.
Amyloplasts and chloroplasts are closely related, and amyloplasts can turn into chloroplasts; this is can be seen when potato tubers are exposed to light and turn green
That would be the organelle named Mitochondria.
The chloroplasts, since that is where glucose is made in a plant cell.
Chloroplasts would be found in large numbers in green plants as that is where photosynthesis takes place.
A chloroplast would be indicative of a plant cell rather than an animal cell. Chloroplasts are responsible for photosynthesis, converting sunlight into glucose, and are found in plant cells but not in animal cells.
The vacuole is the organelle that loses water when a plant is droopy. The vacuole is responsible for storing water and maintaining turgor pressure in plant cells, so when there is a water deficit, the vacuole shrinks, causing the plant to wilt.
The only organelle that is unique to animal cells is the centriole.
The organelle that you would expect to find in a plant cell but not animal cell is the centrosomes.
Plastids (leukoplast, chromoplast, chloroplast)large central vacuolecell wallChloroplast
Plastids (leukoplast, chromoplast, chloroplast)large central vacuolecell wallChloroplast
That would be the organelle named Mitochondria.
a chloroplast.
In terms of an organelle, that would be the chloroplast. a plant
Chloroplast
The chloroplasts, since that is where glucose is made in a plant cell.
Chloroplast
A chloroplast.
Water and dissolved minerals would be stored in the central vacuole in plant cells. This large organelle helps maintain turgor pressure in the cell, stores nutrients and waste products, and can also act as a temporary storage for water and minerals.