Peptide bonds join the monomers in a protein's primary structure.
peptide....the amino acids of a protein are linked by peptide bonds.
These bonds are covalent.
Primary structure of a protein represents the sequence of the amino acids of that particular protein. The amino acids are bonded together by a bond called 'peptide bond'. The peptide bond is formed by carbonyl group of an amino acid with nitrogen group of the adjacent amino acid. Only this peptide bond is responsible for the formation of primary structure of protein. Hence the ionic bonds are not involved in the primary structures of protein.
Proteins have their monomers joined by peptide bonds. These monomers are amides. A number of amides are bond by peptide bonds to make proteins.
Dehydration synthesis. By combining molecules' hydroxyl groups and leaving an O behind or a hydroxyl group and a hydrogen group, you bond the two molecules together and have water as a by-product.
Primary structure is a sequence of amino acid joined covalently unlike hydrogen/ ionic bond, which is easily affected by heat, in 2' 3' 4' structures.
These bonds are covalent.
the simple sugar units or monomers of carbohydrates are linked together through an oxygen bridge generally known as the glycosidic linkage or bond.
Primary structure of a protein represents the sequence of the amino acids of that particular protein. The amino acids are bonded together by a bond called 'peptide bond'. The peptide bond is formed by carbonyl group of an amino acid with nitrogen group of the adjacent amino acid. Only this peptide bond is responsible for the formation of primary structure of protein. Hence the ionic bonds are not involved in the primary structures of protein.
Proteins have their monomers joined by peptide bonds. These monomers are amides. A number of amides are bond by peptide bonds to make proteins.
Monomers chemically bond to make polymers in the process of polymerization.
Monomers chemically bond to make polymers in the process of polymerization.
according to some sources , Urea breaks all bond except for covalent bond , which means the secondary structure will remain , and also the primary structure with peptide bond.
Hydrogen bond
Dehydration synthesis. By combining molecules' hydroxyl groups and leaving an O behind or a hydroxyl group and a hydrogen group, you bond the two molecules together and have water as a by-product.
peptide bond
ester bonds
Cohesive bond