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Dec 16, 2021 · In hydrolysis reactions, a water molecule is consumed as a result of breaking the covalent bond holding together two components of a polymer. Dehydration and hydrolysis reactions are chemical reactions that are catalyzed, or “sped up,” by specific enzymes; dehydration reactions involve the formation of new bonds, requiring energy, while ...
- 7.9: Enzymes
The product is displaced with another water molecule that...
- 7.9: Enzymes
In hydrolysis reactions, a water molecule is consumed as a result of breaking the covalent bond holding together two components of a polymer. Dehydration and hydrolysis reactions are chemical reactions that are catalyzed, or “sped up,” by specific enzymes; dehydration reactions involve the formation of new bonds, requiring energy, while ...
A substance that helps a chemical reaction to occur is called a catalyst, and the molecules that catalyze biochemical reactions are called enzymes. Most enzymes are proteins and perform the critical task of lowering the activation energies of chemical reactions inside the cell.
Aug 17, 2024 · In hydrolysis reactions, a water molecule is consumed as a result of breaking the covalent bond holding together two components of a polymer. Dehydration and hydrolysis reactions are chemical reactions that are catalyzed, or “sped up,” by specific enzymes; dehydration reactions involve the formation of new bonds, requiring energy, while ...
Enzymes are macromolecules—most often proteins—that speed up chemical reactions by lowering activation energy barriers. Enzymes are very specific for the reactions they catalyze; because they are polypeptides, enzymes can have a variety of shapes attributed to interactions among amino acid R-groups.
Mar 26, 2019 · Dehydration synthesis refers to the formation of larger molecules from smaller reactants, accompanied by the loss of a water molecule. Many reactions involving dehydration synthesis are associated with the formation of biological polymers where the addition of each monomer is accompanied by the elimination of one molecule of water.
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Sep 21, 2023 · The product is displaced with another water molecule that repeats the process. One molecule of carbonic anhydrase can convert about million \(\ce{CO2}\) molecules per second in this reaction.
