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Yes, enzymes can catalyze dehydration synthesis. Dehydration synthesis is a chemical reaction in which two molecules covalently bond together with the loss of a water molecule. Enzymes such as polymerases, ligases, and synthetases facilitate this reaction by bringing the molecules together in the correct orientation and providing the necessary environment for the reaction to occur.
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Are enzymes involved in synthesis reactions only?
No, enzymes can also be involved in breakdown reactions. Enzymes can catalyze both synthesis (anabolic) and breakdown (catabolic) reactions in the body, depending on the specific enzymatic reaction and the needs of the cell or organism.
Which part of the membrane can catalyze reactions?
enzymes
Which part of the membrane can catalyze chemicals reactions?
enzymes
Are proteins formed by dehydration synthesis?
No; they are formed by translation. Carbohydrates are formed by dehydration synthesis.
What is removed in dehydration synthesis What kind of bond is made by dehydration synthesis How do you break apart this bond?
Water is removed during dehydration synthesis. A covalent bond is produced by dehydration synthesis. Hydrolysis, the addition of water, can break apart this bond.
Dehydration synthesis and hydrolysis are accomplished in cells by?
Dehydration synthesis is achieved by removing a water molecule to build new molecules, while hydrolysis breaks down molecules by adding a water molecule. In cells, dehydration synthesis is carried out by enzymes that catalyze the formation of new chemical bonds, while hydrolysis is facilitated by enzymes that break down complex molecules into simpler components. Both processes play crucial roles in cellular metabolism and the synthesis and breakdown of biological molecules.
Are enzymes involved in synthesis reactions only?
No, enzymes can also be involved in breakdown reactions. Enzymes can catalyze both synthesis (anabolic) and breakdown (catabolic) reactions in the body, depending on the specific enzymatic reaction and the needs of the cell or organism.
Which part of the membrane can catalyze reactions?
enzymes
Ribosomes participate in the process of?
Protein synthesis. Ribosomes are responsible for translating the genetic information stored in messenger RNA (mRNA) into chains of amino acids that form proteins. They serve as the site of protein production within the cell.
Numerous different enzymes are produced by the cells?
Yes, cells produce numerous enzymes to catalyze various biochemical reactions in the body. These enzymes have specific functions and are crucial for maintaining cellular processes such as metabolism, DNA replication, and protein synthesis. Each enzyme is specialized to catalyze a specific reaction, enhancing the efficiency and specificity of cellular processes.
Which part of the membrane can catalyze chemicals reactions?
enzymes
Are enzymes helpful?
Yes, Enzymes are proteins that catalyze chemical reactions. When you catalyze something, you either decrease or increase the rate of it. Some enzymes are used commercially, for example, in the synthesis of antibiotics. In addition, some household products use enzymes to speed up the chemical reactions. Enzymes in washing powders break down protein or fat stains on clothes; enzymes in meat tenderizers break down proteins into smaller molecules, making the meat easier to chew.
Are proteins formed by dehydration synthesis?
No; they are formed by translation. Carbohydrates are formed by dehydration synthesis.
What are the catalyst in respiration?
They are the enzymes. Enzymes catalyze all biological processes
What is removed in dehydration synthesis What kind of bond is made by dehydration synthesis How do you break apart this bond?
Water is removed during dehydration synthesis. A covalent bond is produced by dehydration synthesis. Hydrolysis, the addition of water, can break apart this bond.
What is it called when 2 subunits are joined enzymes remove an H from one monomer and an OH from another releasing a water molecule?
dehydration synthesis
What types of reactions can enzymes catalyze?
Enzymes can catalyze reactions such as oxidation-reduction, hydrolysis, condensation, and isomerization. They can also facilitate reactions involving the transfer of functional groups or rearranging molecular structures.
