Abstract
The ultraviolet (uv) difference spectra of M(II)-apocarbonic anhydrase at pH 5–9 are reported. For Zn(II) at all pH's and Co(II) at pH ⩾ 7.65 identical protein difference spectra are seen and a positive 300 nm feature is interpreted as consistent with interaction of a metal-bound hydroxyl with a Trp chromophore near the active site. Hg(II), Cu(II), and Cd(II) do not provoke a positive 300 nm band even at alkaline pH (although a Cd(II) spectral band at 300 nm becomes less negative, i.e., more like the holoenzyme with increasing pH) and the 280–292 nm spectral region is generally different from that of Zn(II) and high pH Co(II). A specific orientation of M-OH and, hence, an ordered solvent structure in the enzyme site is implied for enzyme activation. Ni(II) appears to bind to the vacated zinc site slowly, at low pH, in a manner similar to zinc. At higher pH's Ni(II) may be displaced toward a Tyr residue in the active site of apocarbonic anhydrase.
Published Version
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