Well... SORT of. Technically, the bases contain the NCO (amide) moiety that characterizes a peptide bond. However, they occur in heterocyclic rings, and it's stretching a point to call them "peptide bonds" since they're not linking two peptide residues. Also, they're in the cis-form, which is atypical of peptide bonds.
Yes because it is apart of an amino acid which is in DNA
Peptide bonds are only seen in proteins where they join amino acids together.
Amino acids are chemically combined by the formation of peptide bonds.
proteins; they form a covalent bond with amino acids creating a peptide bond
Well! Polypeptides are chain of amino-acids better known as proteins. Those amino-acids are join together by peptide bonds. Peptide bonds form when two amino-acids undego the process of condensation reaction, or dehydration synthesis where a carboxyl group of one amino-acid reacts with the amino group of another amino acid releasing water.
peptide amino
No. Tyrosine is an amino acid that forms peptide bonds with the others in polypeptide chains.
The molecules of the sugar-phosphate backbone in DNA are joined together by covalent bonds (known as phosphodiester bonds).
peptide bonds
DNA molecules form amino acids. Amino acids are bonded together by peptide bonds. This chain on amino acids and peptide bonds form the structure for protein.
No, peptide bonds are between amino acids in proteins.
Amino acids are chemically combined by the formation of peptide bonds.
peptide A.S.Apex :)
Peptide Bonds!
Peptide bond are amide bonds so are covalent bonds with some polarity.
proteins; they form a covalent bond with amino acids creating a peptide bond
Peptide bonds
Well! Polypeptides are chain of amino-acids better known as proteins. Those amino-acids are join together by peptide bonds. Peptide bonds form when two amino-acids undego the process of condensation reaction, or dehydration synthesis where a carboxyl group of one amino-acid reacts with the amino group of another amino acid releasing water.
peptide amino