DISTAL POCKET POLARITY IN LIGAND-BINDING TO MYOGLOBIN - DEOXY AND CARBONMONOXY FORMS OF A THREONINE(68)(E11) MUTANT INVESTIGATED BY X-RAY CRYSTALLOGRAPHY AND INFRARED-SPECTROSCOPY

The crystal structures of the deoxy and carbonmonoxy forms of a distal pocket myoglobin mutant in which valine68(E11) is replaced by threoni ne have been solved to 2.1- and 2.2-angstrom, resolution, respectively . This substitution has been shown previously to cause large decreases in the rate of oxygen binding and to lower the equilibrium associatio n constants for O2 and CO. The synchrotron Laue method was used for th e rapid acquisition of X-ray diffraction data to overcome problems cau sed by the very rapid rate of autooxidation of the mutant protein. The refined deoxy structure shows that the noncoordinated water molecule in the distal pocket is in a position to form strong hydrogen bonds wi th both the N(epsilon)-H of the distal histidine64 and O(gamma) of thr eonine68 with no other unexpected alterations in the protein structure . In the carbonmonoxy form, the bound ligand is well-defined and incli ned away from the two hydrogen-bonding groups, refining to a position in which the Fe-C-O angle is 162-degrees. This value is very close to that previously observed in recombinant wild-type and position-64 (E7) mutants of sperm whale myoglobin (160-170-degrees). The similarity of the CO conformations contrasts with the 150-fold range in equilibrium binding constants (K(CO)) among the distal pocket myoglobin mutants a nd indicates that CO affinities cannot be predicted from the coordinat ion geometry of the bound ligand. Furthermore, a comparison of the inf rared stretching frequencies of CO in wild-type, valine64 and threonin e68 single mutant, and valine64-threonine68 double mutant pig carbonmo noxymyoglobins shows a lack of correlation between K(CO) and nu(CO). T hese effects can be understood in terms of the stability of noncovalen tly bound water in deoxymyoglobin and electrostatic interactions betwe en bound ligands and the distal pocket residues.