H20
The chemical process by which a molecule of water is removed from the reactants to join the reactants together. Dehydration synthesis takes place when the monomers of organic compounds join together by a chemical reaction to make polymers. Hydrolysis its the opposite reaction of breaking up polymers and is accomplished also by chemical reaction. "The joining of two molecules associated with the removal of a water molecule" -Fundamentals of Anatomy and Physiology 7th ed.
Large molecules enter a cell through a process called endocytosis. This involves the cell engulfing the molecule by forming a vesicle around it, which is then brought into the cell. There are different types of endocytosis, such as phagocytosis (engulfing solid particles) and pinocytosis (engulfing liquid particles).
Exocytosis is the process by which large substances are moved out of the cell. This involves the fusion of vesicles containing the substances with the cell membrane, releasing the substances outside the cell.
During transcription an RNA Molecule is formed inside the nucleus. The DNA is too large to leave the nucleus and participates directly in the cytoplasmic protein synthesis. It is necessary to make a small copy of Messenger RNA that will migrate out of the nuclear pore in to the cytoplasm.
When a large molecule enters a cell, it is typically transported through the process of endocytosis. This can occur via phagocytosis for solid particles or pinocytosis for liquid particles. The cell membrane surrounds the large molecule forming a vesicle that is then taken into the cell.
A dehydration reaction can be (and often is) called dehydration synthesis, as the process involves synthesizing large compounds from smaller ones by removing the water from them (hence the dehydra- )
Dehydration synthesis is a specific type of chemical reaction where molecules combine to form a larger molecule with the removal of water. Dehydration reaction is a broader term that encompasses any chemical reaction where water is removed from reacting molecules, which could include dehydration synthesis but also other types of reactions.
The chemical process by which a molecule of water is removed from the reactants to join the reactants together. Dehydration synthesis takes place when the monomers of organic compounds join together by a chemical reaction to make polymers. Hydrolysis its the opposite reaction of breaking up polymers and is accomplished also by chemical reaction. "The joining of two molecules associated with the removal of a water molecule" -Fundamentals of Anatomy and Physiology 7th ed.
monosaccharides are joined together
When two basic subunits come together to form a large macromolecule, a molecule of water is usually produced as a byproduct. This process is known as dehydration synthesis, where a water molecule is removed as the two subunits join together.
The process of making large molecules from smaller ones is called polymerization. This involves joining smaller molecules (monomers) together in a repeating pattern to form a larger molecule (polymer).
To synthesize large biological molecules like proteins or DNA, you must remove water molecules in a process called dehydration synthesis. This reaction involves a condensation reaction where a hydroxyl group (-OH) and a hydrogen atom (-H) are removed to form a covalent bond between the molecules, resulting in the formation of a larger biomolecule.
Continued dehydration synthesis leading to the formation of large carbohydrates is called polysaccharide synthesis. Polysaccharides are complex carbohydrates consisting of multiple monosaccharide units linked together through glycosidic bonds. Examples of polysaccharides include starch, cellulose, and glycogen.
The process of dehydration, synthesis and hydrolysis are related to the organic compounds such as the carbohydrates, lipids and proteins because they are involved in their digestion, egestion and storage.
Anabolic reactions build large molecules from smaller and simpler molecules through processes like dehydration synthesis. These reactions require energy input to form bonds and create complex molecules used for growth, repair, and energy storage in organisms.
Polysaccharides are large macromolecules formed from monosaccharides through dehydration synthesis. Examples include starch, glycogen, and cellulose which serve various structural and energy storage roles in living organisms.
A condensation reaction forms one large molecule from two or more smaller molecules. This process involves the removal of a smaller molecule, such as water, as two molecules combine to form a larger product.