False. Dehydration synthesis is an anabolic process where molecules are joined together to form a larger molecule, while hydrolysis is a catabolic process where a larger molecule is broken down into smaller molecules by the addition of water.
Condensation synthesis is a chemical reaction in which two molecules combine by the removal of a small molecule, typically water. This process forms a larger molecule through the bonding of the two smaller molecules. It is commonly seen in the formation of biological polymers like proteins and nucleic acids.
yes cause of reaction between oxygen and hydrogen
The process is called dehydration synthesis or condensation reaction. In this process, a water molecule is removed from the smaller organic molecules, allowing them to bond together to form a larger molecule. This reaction requires energy input to overcome the energy barrier for the molecules to react.
This process is known as hydrolysis. Digestive enzymes catalyze hydrolysis by breaking down large molecules into smaller molecules by adding water molecules. The enzymes facilitate the reaction by weakening the chemical bonds in the substrate molecules, allowing for the release of smaller products.
Dehydration synthesis involves the removal of a water molecule to join smaller molecules together to form a larger molecule. It is a process that forms complex molecules like carbohydrates, proteins, and nucleic acids by linking monomers together through covalent bonds.
Monomers become chemically bonded to one another when they undergo dehydration synthesis and form dimers, or polymers. During dehydration synthesis, one monomer loses an H atom, and the other loses an OH group, which will form a molecule of water, which is why it is called a dehydration synthesis. A larger molecule will be synthesized with a loss of a water molecule. One example is the dehydration synthesis that occurs between the monosaccharides glucose and fructose, which yields the disaccharide sucrose (table sugar), and a molecule of water. Refer to the related link for an illustration.
False. Dehydration synthesis is an anabolic process where molecules are joined together to form a larger molecule, while hydrolysis is a catabolic process where a larger molecule is broken down into smaller molecules by the addition of water.
Dehydration synthesis, aka condensation reactions join smaller molecules, mostly subunits of a larger molecule (e.g. nucleic acids, monosaccharides, amino acids), into larger molecules (e.g. DNA/RNA, polysaccharides, proteins) with the release of one molecule of water per bond formed between smaller subunits.
Condensation synthesis is a chemical reaction in which two molecules combine by the removal of a small molecule, typically water. This process forms a larger molecule through the bonding of the two smaller molecules. It is commonly seen in the formation of biological polymers like proteins and nucleic acids.
They will break up into smaller molecules.
yes cause of reaction between oxygen and hydrogen
After dehydration synthesis, two molecules are linked together by the removal of a water molecule. This process forms a larger molecule, such as a polymer or macromolecule. It is an essential process in the formation of complex biological molecules like proteins, carbohydrates, and nucleic acids.
The process is called dehydration synthesis or condensation reaction. In this process, a water molecule is removed from the smaller organic molecules, allowing them to bond together to form a larger molecule. This reaction requires energy input to overcome the energy barrier for the molecules to react.
The formation of a complex molecule by removing water is called dehydration synthesis. In this process, a molecule of water is removed as two smaller molecules join together to form a larger, more complex molecule.
This process is known as hydrolysis. Digestive enzymes catalyze hydrolysis by breaking down large molecules into smaller molecules by adding water molecules. The enzymes facilitate the reaction by weakening the chemical bonds in the substrate molecules, allowing for the release of smaller products.
No, molecules cannot contain smaller molecules within them. Molecules are already the smallest unit of a compound and are made up of atoms bonded together in a specific arrangement. They do not contain smaller molecules as subunits.