Periodate oxidation of sperm-whale myoglobin and the role of the methionine residues in the antigen-antibody reaction

Abstract

1. Oxidation of sperm-whale metmyoglobin and its apoprotein with periodate has been investigated under various conditions of pH and temperature to find those under which the reagent acted with specificity. 2. At pH6.8 and 22 degrees consumption of periodate ceased in 3(1/2)hr. at 43 moles of periodate/mole of myoglobin. The two methionine residues, the two tryptophan residues, the three tyrosine residues and two histidine residues were oxidized; serine increased in the hydrolysates from 6 to 9 residues/mol. 3. At pH5.0 and 22 degrees , consumption levelled off in 4(1/2)hr. at 26 moles of periodate/mole of myoglobin and resulted in the modification of the two methionine residues, the two tryptophan residues, the three tyrosine residues and two histidine residues; serine increased from 6 to 7 residues/mol. and, also, ferrihaem suffered considerable oxidation. 4. Oxidation at pH5.0 and 0 degrees resulted at completion (4hr.) in the consumption of 22 moles of periodate/mole of myoglobin and in the modification of the methionine, tyrosine and tryptophan residues. Spectral studies indicated oxidation of the haem group. This derivative reacted very poorly with rabbit antisera to MbX (the major component no. 10 obtained by CM-cellulose chromatography; Atassi, 1964). 5. Oxidation of apomyoglobin at pH5.0 and 0 degrees was complete in 4hr. with the consumption of 7.23 moles of periodate/mole of apoprotein. The rate of oxidation in decreasing order was: methionine; tryptophan; tyrosine; and after 7hr. of reaction the following residues/mol. were oxidized: methionine, 2.0; tryptophan, 1.6; tyrosine, 0.99. No peptide bonds were cleaved. Metmyoglobin prepared from the 7hr.-oxidized apoprotein showed that the reactivity with antisera to MbX had diminished considerably. 6. Milder oxidation of apoprotein (2 molar excess of periodate, pH5.0, 0 degrees , 2hr.) resulted in the modification of 1.66 residues of methionine/mol. Metmyoglobin prepared from this apoprotein was identical with native MbX spectrally, electrophoretically and immunochemically. It was concluded that the methionine residues at positions 55 and 131 were not essential parts of the antigenic sites of metmyoglobin.