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Fig. 3. Myoglobin and leghemoglobin deoxygenation as functions of time in
hemoglobin-containing suspensions of mitochondria. Initially the hemoglobins
are fully oxygenated. Deoxygenation is down. (A) Myoglobin, 50 µmol
l–1; mitochondria (as cytochrome aa3) 170
nmol l–1, 10 mm light path. (A, inset) Myoglobin 500 µmol
l–1; mitochondria (as cytochrome aa3) 700
nmol l–1, 2 mm light path. (B) Leghemoglobin c, 50
µmol l–1; mitochondria (as cytochrome
aa3) 65 nmol l–1, 10 mm light path. The
broken lines are drawn at a tangent to the nearly linear portions of the
curves. The arrows indicate the points at which the rates of mitochondrial
oxygen uptakes are half that during the near-linear portion of the progress
curves. The quasi-steady state oxygen uptakes calculated from the slopes of
the broken lines are 204 and 358 mol O2 (mol cytochrome
aa3)–1 min–1 for
myoglobin and leghemoglobin, respectively. The oxygen pressure at half-maximal
oxygen uptake is found to be the same for two proteins for which affinities
differ 10-fold (see Table 2).
This shows that the PO2 for half-maximal
mitochondrial oxygen uptake is not related to the oxygen affinity of the
hemeprotein supplying oxygen. AU, absorbance units.
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