plastids
Plants use various structures to store essential compounds such as pigments, starch, proteins, and oils. Starch is primarily stored in plastids like chloroplasts and amyloplasts. Proteins can be stored in vacuoles or in specialized structures like seeds. Oils are typically stored in oil bodies or lipid droplets within the cytoplasm of plant cells.
Plants use various structures to store essential compounds. Starch is stored in plastids, particularly in chloroplasts, where it serves as an energy reserve. Oils are stored in specialized structures called oil bodies or lipid droplets, primarily found in seeds and fruits. Additionally, pigments like chlorophyll are stored within thylakoid membranes of chloroplasts, while other pigments can be found in vacuoles or plastids, contributing to color and protection.
Plastids are small structures that can store food (leukoplasts) or pigments (chromoplasts)
Proteins in plants are stored in various organelles such as vacuoles, plastids, and endoplasmic reticulum. Some plants store proteins in specialized structures like seeds, nuts, and legumes. Additionally, protein can be found in plant cell cytoplasm.
Some structures found in plants but not animals include chloroplasts (responsible for photosynthesis), cell walls (provide structure and support), and plastids (store food and pigments). Additionally, plants have specialized structures like roots, stems, and leaves for functions such as anchoring, transport, and photosynthesis, which animals lack.
plastids
Plants use various structures such as vacuoles for pigments, plastids for starch and proteins, and oil bodies for storing oils. Vacuoles are large membrane-bound organelles that can store pigments. Plastids, such as chloroplasts and amyloplasts, are responsible for storing starch and proteins. Oil bodies are small organelles that store oils in plant cells.
Plastids are small structures that can store food (leukoplasts) or pigments (chromoplasts)
Proteins in plants are stored in various organelles such as vacuoles, plastids, and endoplasmic reticulum. Some plants store proteins in specialized structures like seeds, nuts, and legumes. Additionally, protein can be found in plant cell cytoplasm.
Some structures found in plants but not animals include chloroplasts (responsible for photosynthesis), cell walls (provide structure and support), and plastids (store food and pigments). Additionally, plants have specialized structures like roots, stems, and leaves for functions such as anchoring, transport, and photosynthesis, which animals lack.
Ribosomes are the grain-like structures that make proteins inside the cell. The endoplasmic reticulum can store proteins after they have been made by ribosomes.
Chloroplasts store the plants pigment(chloroyphyll)
Accessory pigments are found in plant cells and cyanobacteria. The thylakoid is the compartment, or organelle, where they are stored.
The chloroplasts store pigments. They are found only in plant cells, not animal cells. They store chlorophyll and other pigments.
Sunlight is needed by plants to create photosynthesis. This is how the plants collect and store energy in order to thrive and grow, The sunlight is converted to energy that the plant needs.
Plants produce their own food from the sunlight and water , and store in the form of starch, fat and proteins in the storage tissues.
Plants store water in their structures primarily in their vacuoles, which are specialized compartments within plant cells. These vacuoles help regulate the water content of the plant and maintain its overall structure and function.