I think so, because pinocytosis is always active transport and that requires ATP. But I'm not 100% sure
No, enzymes do not require ATP for their catalytic activity.
Yes, the Calvin cycle does require ATP for its functioning.
Yes, the process of endocytosis does require the use of ATP.
No, voltage-gated channels do not require ATP for their function.
No, uptake of cholesterol by a cell does not require ATP. Cholesterol enters the cell through receptor-mediated endocytosis, which does not consume ATP.
Endocytosis can occur through different mechanisms such as phagocytosis, pinocytosis, and receptor-mediated endocytosis. While some forms may require ATP for the movement and rearrangement of cellular components during the process, there are also ATP-independent mechanisms. These include certain types of pinocytosis, where small molecules are taken up without the need for energy expenditure.
endocytosis and pinocytosis and exocytosis and phagocytosis. active transport
No, relaxation does not require ATP. ATP is primarily used for muscle contraction. Relaxation occurs when calcium ions are actively pumped out of the muscle cell, which does not require ATP.
No, enzymes do not require ATP for their catalytic activity.
Both muscle relaxation and muscle contraction require ATP.
Yes, the Calvin cycle does require ATP for its functioning.
Yes, the process of endocytosis does require the use of ATP.
No, voltage-gated channels do not require ATP for their function.
No, uptake of cholesterol by a cell does not require ATP. Cholesterol enters the cell through receptor-mediated endocytosis, which does not consume ATP.
Yes
No only active transport requires ATP.
Yes, bacteria require ATP for their cellular functions. ATP is a molecule that provides energy for various cellular processes, including metabolism and growth, in bacteria.