Oxymyoglobin

Structural Similarities

Oxymyoglobin is shown with layers of water bound to its surface. This water is strongly attracted to the protein and is part of the structure of any crystalline protein. Hiding the reveals that the overall tertiary shape is much like a hockey puck. The is a prominent secondary structural component. The Myoglobin page gives more detail on the secondary structure. The а-helices can be shown to form , and myoglobin can be classified as an antiparallel α-helix type of globular protein. The shows most of the residues involved in an α-helix are clustered in the area of the plot where one would expect them to be. (Review Ramachandran Plot.) Many of the residues that are outside of the expected cluster are at the end of a helix, and it is not unusual for such residues to have ψ and φ values that are outside of the range for the α-helix. Also notice that many of the residues that are in the quadrants on the right are Gly. (Residues can be identified by hovering over the sphere with the cursor.) The prosthetic group of myoglobin is a , and as shown here it is inserted into a pocket which is nonpolar. Review heme structure. is chelated to Fe²⁺ on one side of the heme.

Structural Differences

is chelated to Fe²⁺ on the side of the heme opposite His 93. Fe²⁺ in oxymyoglobin is chelated to six ligands whereas in myoglobin Fe²⁺ has only five of the possible six positions occupied.