This is a very broad question so I will give a broad answer.
In cellular respiration, ATP is required to start the glycolysis process. The beginning of glycolysis is an endergonic process that requires an input of energy in the form of ATP. For every glucose molecule invested in addition to the two ATP, you get a total of approximately 34-36 ATP in the end after glycolysis and TCA cycle.
During protein metabolism, the exact number of ATP molecules generated can vary depending on the specific amino acids being metabolized and the pathways involved. However, on average, the metabolism of one amino acid can yield around 14-17 ATP molecules.
The mitochondria is the organelle most closely associated with cell metabolism. It is responsible for generating energy in the form of ATP through the process of cellular respiration.
ATP provides energy for metabolic processes. Carbohydrates are broken down into glucose, which is used as a primary energy source in metabolism. Lipids are broken down into fatty acids and glycerol to provide energy and are involved in the synthesis of cell membranes and hormones. Enzymes catalyze metabolic reactions by speeding up chemical processes in the body.
ATP
Atp
Its all oxidation for animals, and its CO2, H2O, & heat.
ATP (energy) is generated in your cells through cellular metabolism. Specifically the conversion of Glucose into ATP.
Aerobic metabolism results in the greater production of ATP compared to anaerobic metabolism. In aerobic conditions, glucose is fully oxidized in the presence of oxygen, yielding up to 36-38 ATP molecules per glucose molecule. In contrast, anaerobic metabolism, such as glycolysis, produces only 2 ATP molecules per glucose molecule and generates lactic acid as a byproduct. Therefore, aerobic metabolism is far more efficient for ATP production.
The basic materials involved in the metabolism of all cells are carbohydrates (glucose), fats (lipids), and proteins. These molecules are broken down through various biochemical pathways to produce energy in the form of ATP, which is used for cellular functions and processes. Additionally, vitamins, minerals, and water are also essential for proper cellular metabolism.
The primary molecule for energy in metabolism is adenosine triphosphate (ATP). Cells use ATP as a source of energy to power biochemical reactions necessary for various cellular processes, such as growth, repair, and movement.
ATP, ADP, and AMP are molecules involved in cellular energy metabolism. ATP is the main energy currency in cells, providing energy for various cellular processes. ADP is formed when ATP loses a phosphate group, releasing energy in the process. AMP is formed when ADP loses another phosphate group. In summary, ATP stores energy, ADP releases energy, and AMP is a lower-energy form of ADP.
In eukaryotes, mitochondria are primarily involved in producing energy in the form of ATP through the process of cellular respiration. They are also involved in regulating cell metabolism, signaling pathways, and programmed cell death. Additionally, mitochondria play a role in biosynthesis of certain molecules and help maintain cellular homeostasis.