Myoglobin: Difference between revisions

Proteopedia Page Contributors and Editors (what is this?)Proteopedia Page Contributors and Editors (what is this?)

Karl Oberholser, Eran Hodis, Judy Voet, David Canner, Alexander Berchansky, Michal Harel, Jaime Prilusky, Eric Martz, Ann Taylor, Joel L. Sussman, Karsten Theis

@@ Line 9: / Line 9: @@
 	Click "Animate" until the Mb ribbon is gray. Turn off the "Mb Ribbon" button. What are the orientations of the main chain carbonyl groups and the amide N atoms relative to each other which allows formation of  the H-bonds of the alpha helices (not drawn)?
 	View2 is a closeup of the heme from the same direction as View1. Turn on the "HemeLigand" button to display, in cyan, the sidechain of His 93, the proximal His, liganding the heme's Fe(II) ion (white bond). The Fe(II) is also liganded in a square-planar array by the heme's four pyrrole N atoms and hence has a total of 5 pyramidally arranged ligands. In oxyMb, the reversibly bound O2 molecule ligands the Fe from the opposite side of the heme as does the proximal His so that the Fe(II) becomes octahedrally coordinated. The Fe atom is not oxidized by its O2 ligand; it remains in the Fe(II) oxidation state.
-	Rotate the image about the vertical axis until you see heme edge-on. Is the Heme planar? Note that the Fe atom is displaced towards the proximal His by 0.55 Å from the best plane though the porphyrin ring atoms. In [[Oxymyoglobin|oxyMb]], the Fe is only 0.22 Å out of the heme plane and still on the side of the proximal His.
+	Rotate the image about the vertical axis until you see heme edge-on. Is the Heme planar? Note that the Fe atom is displaced towards the proximal His by 0.55 Å from the best plane though the porphyrin ring atoms. In [[Oxymyoglobin|oxyMb]], the Fe is only 0.22 Å out of the heme plane and still on the side of the proximal His.  See also [[Molecular Playground/Myoglobin]].