Abstract
Co(II)-substituted hemocyanin (Co(II)Hc) of the octopus, Octopus vulgaris, has been prepared by dialysis of apohemocyanin against Co(II·) ion and subsequent Chelex-treatment. The blue 50%-Co(II)Hc (half-apo Co(II)Hc), in which binuclear coppers are replaced in the hemocyanin by a single Co(II), exhibits two absorption maxima at 560 (ϵ Co=250) and 594 nm (ϵ Co=320 M −1 cm −1) and a shoulder near 610 nm, all of which are attributed to a dd transition of high spin Co(II) (S=3/2) with a tetrahedral geometry. The magnetic circular dichroism (MCD) spectrum in this region also suggests the existence of a tetrahedral Co(II) species in the protein. The visible absorption and MCD spectra of octopus 50%-Co(II)Hc are quite similar to those of squid 50%-Co(II)Hc described in the previous paper (S. Suzuki, J. Kino, M. Kimura, W. Mori and A. Nakahara, Inorg. Chim. Acta, 66, 41 (1982)). The formation of half-apo Co(II)Hc demonstrates that the binuclear copper sites in native octopus hemocyanin may differ from each other in coordination geometry, as in other molluscan hemocyanins, squid and snail hemocyanins. The coordination environment of the active-site Co(II) substituted for Cu in the octopus hemocyanin is the same as that of the corresponding active site of the squid hemocyanin.
Published Version
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