no
Dehydration synthesis refers to a reaction where molecules are joined by forming water. One molecule should have an should have a hydroxyl group, while the other molecule should have a hydrogen atom for dehydration synthesis to occur.
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.
Dehydration synthesis can occur at room temperature, especially with the right conditions such as the presence of a suitable catalyst or enzyme. The process involves the removal of water to form a new compound, making it possible to happen under normal room temperature conditions.
No one knows for sure how it works. Look up DNA dehydration synthesis on Google. You cannot find it anywhere. And if you know about dehydration synthesis, you know that you need two hydrogens and one oxygen, to form water, in the products. But try finding the two hydrogens on the DNA... you can't. I've looked, and they are nowhere to be found. Only one hydrogen and one oxygen come off of the two DNA molecules. Thus it is impossible for proper dehydration to occur in DNA.
3'->5'
Dehydration synthesis refers to a reaction where molecules are joined by forming water. One molecule should have an should have a hydroxyl group, while the other molecule should have a hydrogen atom for dehydration synthesis to occur.
Dehydration synthesis is the joining of two compounds due to the loss of a water molecule between them. It is an example of an endergonic process, which uses energy for the process to occur.
Dehydration synthesis occurs to form larger molecules by removing water molecules from smaller molecules. This process helps to bond monomers together to form polymers, such as proteins, nucleic acids, and carbohydrates.
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.
Dehydration synthesis can occur at room temperature, especially with the right conditions such as the presence of a suitable catalyst or enzyme. The process involves the removal of water to form a new compound, making it possible to happen under normal room temperature conditions.
Cyclohexene can be formed as a byproduct in the synthesis of cyclohexanone through dehydration of cyclohexanol. During the oxidation of cyclohexanol to cyclohexanone, some cyclohexanol may lose a water molecule, undergo dehydration, and form cyclohexene as a byproduct. This side reaction can occur when the temperature and reaction conditions favor dehydration over oxidation.
No one knows for sure how it works. Look up DNA dehydration synthesis on Google. You cannot find it anywhere. And if you know about dehydration synthesis, you know that you need two hydrogens and one oxygen, to form water, in the products. But try finding the two hydrogens on the DNA... you can't. I've looked, and they are nowhere to be found. Only one hydrogen and one oxygen come off of the two DNA molecules. Thus it is impossible for proper dehydration to occur in DNA.
dehydration
Two dehydration reactions occur in the conversion of an aldopentose to furfural. The aldopentose first undergoes dehydration to form a cyclic furanose intermediate, which then undergoes further dehydration to produce furfural.
Pyrimidine synthesis occurs in the cytoplasm of cells in the body.
In the cytoplasm
DNA synthesis, RNA synthesis and cell reproduction