It would be the amino acid that has sulfur in it's R group because sulfur forms covalent dimers that strongly bond in proteins. Name escapes my memory, but any amino acid that is complete should show you this.
The sequence of nitrogenous bases (A, T, G and C) forms a code for the sequence of amino acids in a protein. The code is a triplet code. This means that three bases code for one amino acid. So, the order of the bases in a gene determines the order of the amino acids in a protein.
The DNA molecules will have the instructions for the formation of amino acid which in turn forms the protein by a process called protein synthesis. It includes two steps called transcription and translation.
One of the reasons for protein to be stable in buffer is the solubility of proteins. Protein forms in a way to display their hydrophilic amino acids to the surface and hydrophobic core with in the structure. hence the water molecule can interact with the polar amino acids of proteins.
carboxyl group of one molecule of amino acid and amino group of the other molecule of amino acid by releasing a molecule of water.
Condensation(removal of a water molecule) links amino acids together to form chains called polypeptides. Protein synthesis possibly? Technically what forms the actual bond between the amino acids is dehydration, where an enzyme binds to the amino acids, and removes any H2O, and thus a bond is formed.
Amino acids do this.
Amino acids form peptide bonds.
stupid question..!
The basic building blocks of proteins are amino acids.
The sequence of nitrogenous bases (A, T, G and C) forms a code for the sequence of amino acids in a protein. The code is a triplet code. This means that three bases code for one amino acid. So, the order of the bases in a gene determines the order of the amino acids in a protein.
The order of bases in DNA is a code. Proteins are made of substances called, " Amino acids". A long strand of amino acids forms a protein.
The DNA molecules will have the instructions for the formation of amino acid which in turn forms the protein by a process called protein synthesis. It includes two steps called transcription and translation.
The peptide bonds are formed between a carboxyl group (COOH) of one amino acid, and the amino group (NH2) of another, and this liberates water and forms an amide (COON) bond, which is referred to as a peptide bond.
The steps of protein synthesis: Transcription occurs in the nucleus of the cell, where DNA is transcripted into mRNA Translation occurs in the cytoplasm of the cell, where the mRNA is translated into amino acids and forms a protein
The steps of protein synthesis: Transcription occurs in the nucleus of the cell, where DNA is transcripted into mRNA Translation occurs in the cytoplasm of the cell, where the mRNA is translated into amino acids and forms a protein
A peptide bond is the specific kind of covalent bond that forms between amino acids, the building blocks of proteins, when they join together to make a protein.
No, sugar is various forms of carbohydrate. Empirical formula, CH2O. Proteins are made of amino acids,