the release of a water moleculeThis bonding of two amino acid molecules requires the release of a water molecule.
dehydration synthesis
The release of a water molecule.
Peptide
fatty acids
peptide
A water molecule is formed by two O-H bonds. Water molecules are attracted to each other by the intermolecular force; hydrogen bonding.
Fatty acids (apex)
The metabolism of carbohydrates, fatty acids, amino acids, and alcohol produces the same molecule for energy: ATP (adenosine triphoshate).
Actually, none of the enzymes are made from fatty acids. Fatty acids are part of a fat molecule when it joins with glycerol, whereas enzymes are made from peptide bonding of amino acids.
A change in pH can alter the ionization of the R groups of the amino acids. When the charges on the amino acids change, hydrogen bonding within the protein molecule changes and the molecule changes shape. The new shape therefore may not be effective
the guru molecule is formed by amino acids
the guru molecule is formed by amino acids
A CO2 molecule is smaller. Amino acids have the general structure +H3N - Cα - COO- (with an R group and a H also attached to the middle (alpha) carbon). This means that amino acids are quite a bit larger than CO2 molecules.
Dehydration synthesis, aka condensation reactions join smaller molecules, mostly subunits of a larger molecule (e.g. nucleic acids, monosaccharides, amino acids), into larger molecules (e.g. DNA/RNA, polysaccharides, proteins) with the release of one molecule of water per bond formed between smaller subunits.
The tRNA molecule brings amino acids to the ribosome.
3 fatty acids!
fatty acids
Glycerol
They don't. Amino acids attract the elements inside with covalent bonding. Such as carbon attracts to NH2 (amino) and a H, also another electron connects to COOH (Carboxyl). Then Amino acids attract to other amino acids with a peptide bond, but sorry there is no ionic bonding.
Fatty acids , amino acids , acids in Kreb's cycle .