There are countless processes in plants that require ATP. A few examples are the building of starch from glucose, active transport of ions across the membranes of cells, and production of sugars in the Calvin cycle of photosynthesis.
There are several processes in plants that require ATP. They are cytoplasmic streaming, dark reactions, active transport, and substrate phosphorylation.
ATP is used for many processes. Some of those processes include cellular respiration, active transport, anabolic reactions, and bio-luminescence.
All endergonic reactions in cells use the energy contained in ATP molecules.
Active transport Mitosis
Phagocytosis
photosynthesis and cellular respiration can smd.
C4 plants that use the C4 pathway require more ATP and NADPH
the answer is D ATP is made during each of the processes
Glycolysis produces ATP in plants to power cellular processes. Photosynthesis harnesses the energy from the sun and stores it in glucose molecules.
Phagocytosis
ATP, adenosine triphosphate
photosynthesis and cellular respiration can smd.
The plants would not be able to produce ATP because they would not be able to undergo any type of ATP production. ATP is necessary to undergo metabolic processes.
ATP is used for all the processes inside the body that require energy, such as muscle movement, and active transport.
C4 plants that use the C4 pathway require more ATP and NADPH
the answer is D ATP is made during each of the processes
diffusion or osmosis (diffusion of water)
Glycolysis produces ATP in plants to power cellular processes. Photosynthesis harnesses the energy from the sun and stores it in glucose molecules.
ATP is called energy currency of cell , it is required by all processes of cell including Calvin cycle .
Endocytosis is accomplished by the release of hydrolytic enzymes from lysosomesExocytosis and endocytosis are accomplished by the energy from ATP. These are the processes that are respectively responsible for removing materials from and into the cell.Plasma Membrane
Diffusion does not require the use of any ATP.