condensation? Well this is the name of the reaction when two amino acids come together to make a dipeptide.
The making of a chemical bond by the 'removal of one H+ and one OH-' is called the condensation reaction.
peptide bonds
During protein synthesis, the amino acids are linked together by peptide bonds. This process is carried out by the ribosomes.
amino acids are the monomers for protein
A protein molecule is a long chain of amino acids. There are 22 different amino acids and their chemical properties determine the shape of the protein which determines the function of the protein.
Amino acids are the basic structures of protein. Each type of protein depends on the arrangement of the amino acids. One inconsequential change can completely change the type of protein it is.
yes :)
A complete protein contains four elements. These are oxygen, hydrogen, carbon and nitrogen.These are combined into amino acids. A complete protein contains all the amino acids.
Anabolic reactions are reactions which build molecules up, catabolic reactions break them down. Since protein synthesis is a 'building' reaction it is anabolic.
Anabolic reactions are reactions which build molecules up, catabolic reactions break them down. Since protein synthesis is a 'building' reaction it is anabolic.
Amino acids are made by reading the code in DNA. They are combined with other amino acids to form a protein.
Metabolism produces: amino acids(protein), carbohydrates(molecules that store energy), and lipids(fat)
During protein synthesis, the amino acids are linked together by peptide bonds. This process is carried out by the ribosomes.
free amino acids only
Amino acids are monomers of proteins. So they build up proteins
When DNA bases are combined into different 3-base codes, called triplets or codons, different amino acids are called for to create the protein chain.
Ribozymes.Catalytic RNA that you see catalyzing reactions in the spliceosomes, the ribosomes and in attaching amino acids to tRNA
The order of amino acids can affect the protein's shape.
oxidative deamination