yes
This process is called chemical synthesis or chemical bonding. It involves atoms or molecules reacting together to form new, more complex molecules through the breaking and forming of chemical bonds. This process is essential for building larger molecules and compounds in nature and in laboratories.
Simple sugars are carbohydrates composed of one or two sugar units, while imino acids are amino acids with an imino group instead of a carboxyl group. Simple sugars are used as a quick energy source, while imino acids have specific roles in protein structure and function.
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).
The reaction you are referring to is called a dehydration reaction. It involves the removal of a water molecule from the reactants to form a new compound. This type of reaction is common in organic chemistry and is used to create larger molecules by linking smaller ones together.
A characteristic of a synthesis reaction is that two or more reactants combine to form a single product. This type of reaction is used to create new compounds by building larger molecules from smaller ones.
This process is called chemical synthesis or chemical bonding. It involves atoms or molecules reacting together to form new, more complex molecules through the breaking and forming of chemical bonds. This process is essential for building larger molecules and compounds in nature and in laboratories.
Polysaccharides are formed from monosacharides (simple carbohydrates).
The chemical process by which complex molecules of proteins are made from simple molecules is called protein synthesis. It involves transcription to generate RNA from DNA, and translation to assemble amino acids into a protein based on the RNA template.
Simple sugars are carbohydrates composed of one or two sugar units, while imino acids are amino acids with an imino group instead of a carboxyl group. Simple sugars are used as a quick energy source, while imino acids have specific roles in protein structure and function.
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).
Cells use simple sugar molecules as a source of energy. The sugar molecules are broken down through a series of chemical reactions to produce adenosine triphosphate (ATP), which is the energy currency of the cell. ATP is then utilized by the cell to fuel various cellular processes and functions. Additionally, some simple sugars may also be used in the synthesis of macromolecules such as proteins and lipids.
Cells store Extra Sugar as Larger Carbohydrates
A characteristic of a synthesis reaction is that two or more reactants combine to form a single product. This type of reaction is used to create new compounds by building larger molecules from smaller ones.
The reaction you are referring to is called a dehydration reaction. It involves the removal of a water molecule from the reactants to form a new compound. This type of reaction is common in organic chemistry and is used to create larger molecules by linking smaller ones together.
Cells need small molecules like simple sugars and amino acids to diffuse into the cell because these molecules serve as essential building blocks and energy sources for cellular processes. The cell membrane is selectively permeable, allowing small, uncharged molecules to pass through more easily than larger ones. Simple sugars provide energy through cellular respiration, while amino acids are crucial for protein synthesis. Their diffusion into the cell supports metabolic functions and overall cellular health.
The polymer of thousands of simple sugars formed by dehydration synthesis is called a polysaccharide. This process involves the removal of a water molecule to bond the sugar molecules together to form a long chain. Examples of polysaccharides include starch, glycogen, and cellulose.
Yes, because they are made up of lots of molecules themselves. However there are some extremely large molecules a simple example are network covalent compounds which can have quite large crystals (an example is silicon dioxide, quartz) and these are much larger than protozoa.