Reactivities of hydroxylamine and sodium bisulphite with carbonyl-containing haems and with the prosthetic groups of the erythrocyte green haemoproteins.

The reactivities of alkaline NH(2)OH and neutral NaHSO(3) with carbonyl and olefinic groups conjugated with the tetrapyrrole nucleus of haems were studied. The reactions were carried out with 2-3nmol of haem a, spirographis haem, isospirographis haem, 2,4-diacetyldeuterohaem and protohaem. Vinyl side chains were found to be insensitive to the chemical action of both alkaline NH(2)OH and neutral NaHSO(3). The formyl-containing haems reacted rapidly with both reagents at room temperature, as evidenced by sizable hypsochromic shifts of the reduced pyridine haemochrome spectrum. In less alkaline solution, the reactions of these formyl-containing haems with NH(2)OH were much slower. 2,4-Diacetyldeuterohaem reacted with alkaline NH(2)OH, but not with neutral NaHSO(3). These rapid, simple and straightforward tests are readily usable in differentiating among formyl, acetyl and other electron-withdrawing side chains conjugated with the tetrapyrrole ring of haems. We applied these observations to an investigation of the two unique prosthetic groups of the bovine erythrocyte green haemoproteins. The prosthetic groups of these two proteins were isolated and spectrally characterized. Under the conditions used, the haems did not react with either NH(2)OH or NaHSO(3), but were altered by dithionite, suggesting that the previous interpretation that a formyl group was present [Hultquist, Dean & Reed (1976) J. Biol. Chem.251, 3927-3932] may have been premature. These studies also provide evidence that the alpha-hydroxyfarnesylethyl side chain of haem a affects the alpha-band maximum, but not the beta- or Soret bands of the reduced pyridine haemochrome spectrum of haem a.