HCO3^-(aq)+H2O(l)--->H2CO3(aq)+OH^-(aq)
It certainly depends on what type of polymer you are speaking. For peptide polymers the reaction for monomerization is hydrolysis. This is the addition of water in combination with the cleavage of the peptide bond.
Hydrolysis decomposes carbohydrates, lipids and proteins. Hydrolosis is not anabolic, it is catabolic. A catabolic reaction is where the bond between monomers is broken by the enzyme and the addition of water.
Condensation. The opposite is known as dehydration synthesis.
Deoxyribose, also known as D-Deoxyribose and 2-deoxyribose, is an aldopentose - a monosaccharide containing five carbon atoms, and including an aldehyde functional group in its linear structure. Deoxyribose is a constituent of the nucleotide bases that form DNA.
hydrolosis
Hydrolysis occurs during catabolism.
lactase catalyses hydrolysis of lactose.
Hydrolosis is a chemical reactioin during which one or more water molecules are split into hydrogen and hydroxide ions
HCO3^-(aq)+H2O(l)--->H2CO3(aq)+OH^-(aq)
Hydrolysis. It's Significant Power Lies in the Fact that this Process is Reversible.
Hydrolysis is the process that breaks down polysaccharides into simpler sugars.
Glycogen is the long-term energy storage for animals and most of an animals energy is exerted through motility or muscle movement so it would only make sense for glycogen to be broken down (through hydrolosis) where it was most needed; in the muscles.
It certainly depends on what type of polymer you are speaking. For peptide polymers the reaction for monomerization is hydrolysis. This is the addition of water in combination with the cleavage of the peptide bond.
This is an example of hydrolosis; a decoposition using water, or H2O.
Hydrolysis decomposes carbohydrates, lipids and proteins. Hydrolosis is not anabolic, it is catabolic. A catabolic reaction is where the bond between monomers is broken by the enzyme and the addition of water.
Condensation. The opposite is known as dehydration synthesis.