Chloride masks effects of opposing positive charges in Hb A and Hb Hinsdale (beta 139 Asn-->Lys) that can modulate cooperativity as well as oxygen affinity.

In the human hemoglobin variant Hb Hinsdale, lysine is substituted for asparagine at position beta 139 (H17), which lies in the water-filled cavity that runs through the center of the molecule. This substitution adds two extra cationic residues to the excess of four cationic residues normally lining this cavity. Moo-Penn and colleagues who discovered this hemoglobin, found its oxygen affinity in 0.

Accommodation of insertions in helices: the mutation in hemoglobin Catonsville (Pro 37 alpha-Glu-Thr 38 alpha) generates a 3(10)-->alpha bulge.

Hemoglobin Catonsville is a mutation of human hemoglobin (an alpha 2 beta 2 tetramer) in which a glutamate residue is inserted into the first turn of a highly conserved 3(10) helix (the C helix) of each alpha subunit. In theory, amino acid insertions (or deletions) in protein helices can be accommodated via two distinct mechanisms. One, termed the register shift mechanism, preserves the geometry of the helix while requiring all of the residues on one flank of the insertion site to rotate by 100 degrees in the case of an alpha helix or by 120 degrees in the case of a 3(10) helix.

Mutagenic dissection of hemoglobin cooperativity: effects of amino acid alteration on subunit assembly of oxy and deoxy tetramers.

Free energies of oxygen-linked subunit assembly and cooperative interaction have been determined for 34 molecular species of human hemoglobin, which differ by amino acid alterations as a result of mutation or chemical modification at specific sites. These studies required the development of extensions to our earlier methodology. In combination with previous results they comprise a data base of 60 hemoglobin species, characterized under the same conditions.