Abstract
The mini-hemoglobin from Cerebratulus lacteus (CerHb) belongs to a class of globins containing the polar Tyr-B10/Gln-E7 amino acid pair that normally causes low rates of O2 dissociation and ultra-high O2 affinity, which suggest O2 sensing or NO scavenging functions. CerHb, however, has high rates of O2 dissociation (kO2 = 200-600 s(-1)) and moderate O2 affinity (KO2) approximately 1 microm(-1)) as a result of a third polar amino acid in its active site, Thr-E11. When Thr-E11 is replaced by Val, kO2 decreases 1000-fold and KO2 increases 130-fold at pH 7.0, 20 degrees C. The mutation also shifts the stretching frequencies of both heme-bound and photodissociated CO, indicating marked changes of the electrostatic field at the active site. The crystal structure of Thr-E11 --> Val CerHbO2 at 1.70 A resolution is almost identical to that of the wild-type protein (root mean square deviation of 0.12 A). The dramatic functional and spectral effects of the Thr-E11 --> Val mutation are due exclusively to changes in the hydrogen bonding network in the active site. Replacing Thr-E11 with Val "frees" the Tyr-B10 hydroxyl group to rotate toward and donate a strong hydrogen bond to the heme-bound ligand, causing a selective increase in O2 affinity, a decrease of the rate coefficient for O2 dissociation, a 40 cm(-1) decrease in nuCO of heme-bound CO, and an increase in ligand migration toward more remote intermediate sites.
Highlights
Rate coefficients for O2 binding to body wall CerHb isolated from intact worms were determined as controls for comparison with the values for the recombinant nerve proteins
The Thr-E11 hydroxyl group donates its proton to the main chain carbonyl O atom of Gln-E7
A similar interaction is observed in the Val-E11 to Thr mutant of pig Mb [57], where the Thr-E11 side chain is rotated about the C␣–C bond, upward and away from the heme, bringing the O-␥1 atom of Thr-E11 0.5 Å closer to the His-E7 carbonyl O atom
Summary
Neuroglobin is a recently discovered member of the globin family, whose in vivo function is still unknown (9 –14) It is expressed in specific regions of vertebrate brains, displays low sequence identity to conventional Hbs or Mbs, and is characterized by a bis-His-Fe hexacoordinate heme structure [11, 12, 15, 16]. The N-terminal A-helix is deleted; the GH region is extended; and the C-terminal H-helix is shortened Both sequence and fold comparisons suggest that CerHb is distant from all known globin tertiary structures, supporting its identification with a new superfamily, the mini-Hbs [22]. The ligand-binding site of both body wall and nerve CerHb is highly unusual since it contains three polar residues, Tyr-B10, Gln-E7, and Thr-E11. Hbs that contain the Tyr-B10 and Gln-E7 side chains show enhanced O2 affinity and mark-
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