yes
All cells use ATP
Cells obtain the energy to regenerate ATP through processes like cellular respiration, where they break down molecules such as glucose to produce ATP. This energy is generated through the transfer of electrons in the electron transport chain, leading to the synthesis of ATP in the mitochondria.
Adenosine Diphosphate (ADP) and Phosphate (PO4) are brought together by Phosphocreatine (Also known as PCr or Creatine Phosphate) to regenerate ATP. Phosphocreatine contains high energy phosphate bonds, much like ATP. PCr is not able to supply energy directly to a cell. Its main function is to store the excess energy produced from mitochondria in its phosphate bonds. PCr is made when Adenosine Triphosphate (ATP) is sufficient, and gives its energy to ADP molecules when ATP is deficient. Muscles quickly exhaust the supply of PCr, however, so the body depends heavily upon the cellular respiration of glucose to synthesize (not regenerate) ATP.
Cells use the energy from ATP for active transport and cell division.
Cells use the energy from ATP for active transport and cell division.
they use it by giving out oxygen
All cellular activities in living organisms primarily use adenosine triphosphate (ATP) as a source of energy. ATP serves as a universal energy currency, supplying the necessary energy for various cellular processes, including metabolism, muscle contraction, and active transport. The energy stored in ATP is released when it is hydrolyzed, allowing cells to perform work efficiently. Additionally, cells can regenerate ATP through processes like cellular respiration and photosynthesis.
Cells use the energy from ATP for active transport and protein synthesis.
they use it by giving out oxygen
Every cells both make the ATP and use it.
This energy comes from the molecule ATP,which stores energy in a form that cells can use
38 atp are released in kidney cells because malate asparatic acid works as shuttle in kidney cells which cannot use any ATP for the transportation of NADH to succinic dehydrogenase.