Yes, exocytosis requires ATP. ATP is needed to provide the energy necessary for vesicle transport and fusion with the cell membrane during the process of exocytosis.
The process that changes the shape of transport proteins when a particle binds to it is called conformational change. This change in shape allows the protein to either open a channel for the particle to pass through or undergo a rotational movement to transfer the particle across the membrane.
No, transporting aquaporin proteins does not require ATP. Aquaporins facilitate the movement of water across cell membranes through passive transport processes, such as osmosis or simple diffusion according to the concentration gradient. ATP is typically not needed for passive transport.
Passive transport mechanisms such as diffusion and osmosis do not require the breakdown of ATP, as they rely on the natural movement of molecules from an area of high concentration to low concentration. This process does not require energy input.
Processes in plants that require ATP include photosynthesis, where ATP is used as an energy source to convert carbon dioxide and water into glucose, and cellular respiration, where ATP is produced in the mitochondria from the breakdown of glucose to provide energy for cellular functions and growth. Other ATP-dependent processes in plants include active transport of molecules across cell membranes, protein synthesis, and cell division.
No only active transport requires ATP.
no it is not because it does not require the use of ATP
no it is not because it does not require the use of ATP
Active transportation needs energy.(ATP). ATP is produced by mitochondria
Any kind of active transport.
Active transport... Not anything passive though.
Yes, exocytosis requires ATP. ATP is needed to provide the energy necessary for vesicle transport and fusion with the cell membrane during the process of exocytosis.
active transport
The process that changes the shape of transport proteins when a particle binds to it is called conformational change. This change in shape allows the protein to either open a channel for the particle to pass through or undergo a rotational movement to transfer the particle across the membrane.
No, transporting aquaporin proteins does not require ATP. Aquaporins facilitate the movement of water across cell membranes through passive transport processes, such as osmosis or simple diffusion according to the concentration gradient. ATP is typically not needed for passive transport.
Passive transport does not require ATP because it relies on the natural movement of molecules from an area of higher concentration to an area of lower concentration, which is driven by the laws of physics. This process, involving diffusion and osmosis, does not require energy input like ATP to transport molecules across a cell membrane.
Active transport processes, such as primary active transport, secondary active transport, and vesicular transport, require the cell to expend energy in the form of ATP. These processes enable the movement of molecules or ions against their concentration gradients or across membranes.