In anabolic reactions, organelles such as the endoplasmic reticulum, Golgi apparatus, and mitochondria are commonly used to produce molecules and build structures. In catabolic reactions, organelles like lysosomes and peroxisomes are involved in breaking down molecules and generating energy through processes such as digestion and oxidation.
The energy required for anabolic reactions comes primarily from ATP (adenosine triphosphate), which is a molecule that serves as the primary energy currency of cells. ATP is synthesized through the process of cellular respiration, which involves breaking down molecules like glucose to produce energy in the form of ATP. This ATP can then be used to drive anabolic reactions that build complex molecules from simpler ones.
The two main types of chemical reactions in the cells of the human body are catabolic reactions, which involve breaking down molecules to release energy, and anabolic reactions, which involve building molecules using energy. Catabolic reactions produce ATP, the main source of energy for cellular processes, while anabolic reactions are involved in processes such as protein synthesis and cell growth.
Fermentation is usually used to refer to reactions which produce energy without using oxygen. These reactions involve the breakdown of food molecules eg glucose to release energy. Breakdown reactions are called catabolic reactions, so fermentation is catabolic and not anabolic.Fermentation process does not produce any energy molecules, its purpose is to recover NAD's that were used in the Glycolysis to use them again in the next Glycolysis process. All Fermentation processes are the subset of a Catabolic reactions, although, their product do not include the release of energy as the other catabolic reactions do.Also, Fermentation is an Anaerobic Respiration, which happens only in the cells that can not undergo the Aerobic Respiration.
The type of drug that anabolic steroids belong to is a stimulant. Long term or excessive use of anabolic steroids can produce negative health risks.
catabolism,where energy is rich complex macromolecules are degrade into small molecules.Energy released during this process is trapped as chemical energy usually as ATP. Ananolism,(biosynthesis) the cell synthesise complex molecules from simpler precursors.this needs energy.
exothermic
No, the light reactions produce high-energy molecules (ATP and NADPH) while the Calvin cycle, which is part of the light-independent reactions, uses these molecules to produce three-carbon sugars through carbon fixation.
Burning.
Salt and water
Metabolic reactions produce energy (ATP), which is used by the body for various functions such as growth, repair, and movement. They also produce waste products that need to be eliminated from the body.
Yes, most chemical reactions that give off light also produce heat. This phenomenon is known as chemiluminescence, where the energy released during the reaction is emitted as both light and heat. However, not all reactions that produce light necessarily produce heat, as some reactions can be endothermic and absorb heat instead.