What are the different types of metabolism paths?
Metabolism paths include basic chemical reactions that provide cells to remain alive and repaired. Cell breathing is a central metabolic activity and works through three different roads-glycolysis, Krebs cycle and oxidative phosphorylation-which create molecules rich in energy that fuel cells. The different paths of metabolism are specialized in production proteins, nucleic acids and other basic molecules. Toxic by -products of the metabolism are destroyed in the railway cycle.
There are two classes of metabolism reactions: anabolism that uses energy to create proteins and other cellular components, and catabolism that creates energy by distributing food into energy -rich compounds. Most metabolic roads fall into one of these categories. The paths are catalyzed by enzymes that regulate each individual chemical reaction, usually produce many medium compounds and chain reactions in this process. In many points of development of the livingVota was used to satisfy different metabolic needs, so the same enzymes point metabolism in many different organisms in many different organisms. It includes three metabolic pathways. The first of them, glycolysis, is the division of glucose, six-carbon sugar, two-cells of three-carbon sugar and to acetyl coenzyme A. Glycolysis generates two ATP molecules along with other molecules rich in energy. In anaerobic metabolism, such as in some bacteria and yeast, glycolysis is called fermentation and is the only stepchief of cellular breathing.
In animals, glycolysis is only the first step of cellular breathing. The second way of metabolism is the cycle of citric acid, also known as Krebs or TCA cycle. This Begin, when the acetyl is coenzyme and is converted from glycolysis into several chemicals transmitting energy and two molecules, etc. The last of the metabolism paths in the bunOxidative phosphorylation, which requires oxygen and many molecules transmitting electrons. This path uses electron transmission from chemicals rich in oxygen to power, etc.
beta-oxidation is a metabolic path that converts fatty acids into etc. Fat metabolism includes both catabolism to form ATP and anabolism to form phospholipids. The proteins are divided into their amino acids in many different pathways, starting with digestion and continuing the cellular level. Two other common metabolism pathways are a urea cycle that removes toxins created by nitrogen metabolism from the body and glycogenesis, which converts glucose into starch for long -term storage.