A plant cell contains a water vacuole that contains water and other nutrients. The plant is wilted when the water vacuole is not expanded. Thus the plant is in a normal condition when its cells' water vacuoles are full of water and other nutrients.
Chloroplasts are most numerous in the cells of green plants like leaves, where they are responsible for photosynthesis and converting sunlight into energy for the plant.
The tissue layer responsible for most of the food production in plants is the mesophyll tissue, specifically the palisade mesophyll cells. These cells contain numerous chloroplasts where photosynthesis occurs, converting sunlight into energy for the plant.
Chloroplasts are most abundant in the cells of green plants, specifically in the leaf cells. These cells are known as mesophyll cells and are responsible for photosynthesis, where chloroplasts capture sunlight to produce energy for the plant.
Yes, chloroplasts are found in most plant cells, particularly in the cells of green tissues such as leaves. They are the organelles responsible for photosynthesis, allowing plants to convert sunlight into energy. However, some specialized plant cells, like those in roots, may lack chloroplasts since they do not perform photosynthesis.
Yes, all plant cells have chloroplasts. Plant cells are the only cells that have chloroplasts, actually. No- Most Cells of Plant Roots do not!
Chloroplasts are most numerous in the cells of green plants like leaves, where they are responsible for photosynthesis and converting sunlight into energy for the plant.
The tissue layer responsible for most of the food production in plants is the mesophyll tissue, specifically the palisade mesophyll cells. These cells contain numerous chloroplasts where photosynthesis occurs, converting sunlight into energy for the plant.
Chloroplasts are most abundant in the cells of green plants, specifically in the leaf cells. These cells are known as mesophyll cells and are responsible for photosynthesis, where chloroplasts capture sunlight to produce energy for the plant.
The most familiar plastid is the chloroplast, which is responsible for photosynthesis in plant cells. It contains chlorophyll, a green pigment that captures sunlight to convert into energy for the plant.
Yes, chloroplasts are found in most plant cells, particularly in the cells of green tissues such as leaves. They are the organelles responsible for photosynthesis, allowing plants to convert sunlight into energy. However, some specialized plant cells, like those in roots, may lack chloroplasts since they do not perform photosynthesis.
Yes, all plant cells have chloroplasts. Plant cells are the only cells that have chloroplasts, actually. No- Most Cells of Plant Roots do not!
The largest organelle in most mature living plant cells is typically the vacuole. This organelle is responsible for storing water, nutrients, and waste products, while also providing structural support to the cell.
Cell x would most likely be found in the stem or leaf of a plant, as these are the parts responsible for transporting water and nutrients throughout the plant. The cell could be specialized for functions such as water transportation (xylem cells) or photosynthesis (palisade cells).
Vacuoles are found in both animal and plant cells. In plant cells, a large central vacuole takes up most of the cell's volume, storing water, nutrients, and waste products. Animal cells may have smaller vacuoles, which serve various functions such as storing waste products or aiding in cell digestion.
Plant cells have both chloroplasts and mitochondria. Chloroplasts are responsible for photosynthesis, converting light energy into sugar, while mitochondria produce energy for the cell through cellular respiration.
Chlorophyll is whats found in most plant cells and also makes the plant turn green.
The vacuole is the organelle that takes up the majority of the volume in a plant cell. It is used for storing water, nutrients, and waste products. The central vacuole in plant cells helps maintain turgor pressure and provides structural support to the cell.