Table 1.
Heme content of WT, E99 mutants and E445 mutants of E. coli cyt bd
| Sample | heme b558 | heme b595 | excess heme b | heme d | Quinol oxidase activity (%) |
|---|---|---|---|---|---|
| WT | 1 | 1 | – | 0.92 | 100 |
| E445A | 1 | 1.0 | – | 1.511 | 1 |
| E445C | 1 | 0.85 | – | 1.311 | 3 |
| E445H | 1 | 0.59 | – | 0.74 | <3 |
| E445Q | 1 | 0.81 | – | 0.59 | 15 |
| E99A | 1 | 1.0 | – | 0.43 | 72 |
| E99H | 1 | 1 | 0.653 | < 0.352 | < 3 |
| E99Q | 1 | 1 | 0.633 | < 0.372 | < 3 |
Apparent excess heme d is attributed to perturbation of the extinction coefficients of the protein-bound heme due to the mutations. The pyridine hemochrome of heme d is not stable and quantitation by this approach is unreliable.
The spectra of protein-bound heme d in these mutants is very perturbed making quantitation by the standard extinction coefficients unfeasible. It is assumed that the excess heme b must be bound to the site where heme d normally binds and the amount of heme d bound to that site cannot be more than that needed to account for full occupancy of that binding site.
The amount of heme b extracted from these mutants is more than can be accounted for one heme bound to each of the two heme b binding sites (heme b558 and heme b595). It is assumed that each of these binding sites is fully occupied and the excess heme b binds elsewhere, presumably in the site that normally binds to heme d.