Monosaccharides make up carbohydrates. Amino acids make up proteins. fatty acids and glycerols for lipids. Nucleotides for nucleic acids
Catalase is an enzyme composed of four identical monomer subunits, making it a tetramer. Each monomer is a polypeptide chain that contributes to the enzyme's overall structure and function. Thus, there are four monomers present in a single molecule of catalase.
First, you need to understand what kind of monomer you are wanting to draw and which polymer it is based on. You will write the abbreviations for each of the molecules, then connect them with single or double lines (representing the type of connection). how would you Draw the starting monomer for the following polymer.
Each phosphate is made up of what
Subunits of fats are glycerol and fatty acids. Each fat molecule comprises of 1 molecule of glycerol and 3 molecules of fatty acids.
The diversity of large biological molecules can be attributed to their varied combinations of building blocks such as amino acids, nucleotides, and carbohydrates. These building blocks can be arranged in countless ways, giving rise to a wide range of structures and functions in proteins, nucleic acids, and carbohydrates, providing the basis for the vast array of biological molecules found in nature.
The monomer for hemoglobin is a protein subunit called a globin. Hemoglobin is composed of four globin subunits, each containing a heme group that binds to oxygen.
Carbohydrates, Cx(H2O)y, are made up of two subunits, carbon (Cx) and water (H2O)y, where x and y are the number of molecules in each of the subunits.
Subunits of fats are glycerol and fatty acids. Each fat molecule comprises of 1 molecule of glycerol and 3 molecules of fatty acids.
19 molecules of water are needed to completely hydrolyze a polymer that is 20 monomers long. Each monomer requires one water molecule to break the bond between it and the next monomer in the polymer chain, except for the last monomer which does not require a water molecule.
A polymer is a large molecule which is composed of repeating structural units called monomer connected to each other by covalent chemical bonds.
First, you need to understand what kind of monomer you are wanting to draw and which polymer it is based on. You will write the abbreviations for each of the molecules, then connect them with single or double lines (representing the type of connection). how would you Draw the starting monomer for the following polymer.
Hydrolysis converts polymers to monomers by adding H2O between each monomer. In dehydration synthesis, the opposite occurs. As the name implies, water is removed in order to bond the monomers.
The large diversity of shapes of biological molecules is possible because of the extensive presence of functional groups. Functional groups are specific groups of atoms within molecules that confer unique chemical properties and reactivity. These functional groups can interact with each other and with other molecules through various types of chemical bonds, leading to the wide array of shapes and structures seen in biological molecules.
Each phosphate is made up of what
Chitin is actually a polymer that can be made up of any number of monomer subunits. The monomer for chitin is N-acetyl-D-glucosamine, which has a chemical formula of: (C8H13O5N)n Therefore, each monomer is made up of 27 atoms.
Peptides are constructed from amino acids. Proteins are constructed from peptide subunits.
Subunits of fats are glycerol and fatty acids. Each fat molecule comprises of 1 molecule of glycerol and 3 molecules of fatty acids.