Abstract
A heme-bearing polypeptide core of human neutrophil flavocytochrome b(558) was isolated by applying high performance, size exclusion, liquid chromatography to partially purified Triton X-100-solubilized flavocytochrome b that had been exposed to endoproteinase Glu-C for 1 h. The fragment was composed of two polypeptides of 60-66 and 17 kDa by SDS-polyacrylamide gel electrophoresis and retained a native heme absorbance spectrum that was stable for several days when stored at 4 degrees C in detergent-containing buffer. These properties suggested that the majority of the flavocytochrome b heme environment remained intact. Continued digestion up to 4.5 h yielded several heme-associated fragments that were variable in composition between experiments. Digestion beyond 4.5 h resulted in a gradual loss of recoverable heme. N-Linked deglycosylation and reduction and alkylation of the 1-h digestion fragment did not affect the electrophoretic mobility of the 17-kDa fragment but reduced the 60-66-kDa fragment to 39 kDa. Sequence and immunoblot analyses identified the fragments as the NH(2)-terminal 320-363 amino acid residues of gp91(phox) and the NH(2)-terminal 169-171 amino acid residues of p22(phox). These findings provide direct evidence that the primarily hydrophobic NH(2)-terminal regions of flavocytochrome b are responsible for heme ligation.
Highlights
Sequence and immunoblot analyses identified the fragments as the NH2-terminal 320 to 363 amino acid residues of gp91phox, and the NH2-terminal 169 to 171 amino acid residues of p22phox. These findings provide direct evidence that the primarily hydrophobic, NH2-terminal regions of flavocytochrome b are responsible for heme ligation
The characteristic absorbance spectrum of flavocytochrome b is attributed to the presence of heme prosthetic groups that are non-covalently coordinated by histidine residues within the protein
Due to the tenuous nature of this ligation scheme, the heme spectrum is lost under conditions that separate the individual subunits [21], though heme remains associated with both subunits during electrophoresis at low temperature with lithium dodecyl sulfate (LDS)-PAGE [22]
Summary
The third peak, coeluting with micellar Triton X-100 at 32 minutes, corresponds to a molecular mass of ~ 140 kDa. The DAD absorbance spectrum of the 32 minute elution peak showed a large shoulder from the Triton X-100, similar to that observed after 1 hour of digestion, and revealed a distinct λmax at 408-410 nm indicating the presence of heme in these fractions (not shown).
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