To characterize the electrostatic complex formed between
myoglobin (Mb) and cytochrome b
5
(Feb
5), we
have performed flash photolysis triplet-quenching and electron-transfer
(ET) measurements of the interaction between
Zn deuteroporphyrin (ZnD)-substituted Mb (sperm whale) (ZnDMb) and
Feb
5(trypsin-solubilized, bovine) at
pH
values between 6 and 7.5. For pH values between pH 6 and pH 7.5,
the quenching rate constant (Δk) varies linearly
with [Fe3+
b
5]. The slope
(M) obtained from plots of Δk versus
[Fe3+
b
5] is strongly dependent
on pH (M = 140 ×
106 M-1
s-1 at pH 6 and M = 2.4 ×
106 M-1
s-1 at pH 7.5). The triplet decay
profiles remain exponential throughout
these titrations. Together, these results indicate that the
association constant obeys the inequality, Ka ≤ 3000
M-1
and that the lower limit for the rate constant for dissociation of the
3
DA complex of
(k
off)min = 106
s-1 at pH 6 and
(k
off)min = 104
s-1 at pH 7.5. Transient absorption
measurements have shown that this quenching of 3ZnDMb
by
Fe3+
b
5 can be attributed to
intracomplex 3ZnD → Fe3+P ET and that
the transient absorbance changes observed at
the
3
D/D isosbestic points
represent the time evolution of the
(
D
+
A
-
),
[ZnD+Mb,
Fe2+
b
5] intermediate,
I. The
long-time behavior of the progress curves (t ≥ 20 ms) collected during
a titration of Fe3+
b
5 by ZnDMb
(reverse
titration protocol) is neither purely second-order nor purely
first-order but rather resembles a mixed-order process
involving both the
(
D
+
A
-
)
complex and its dissociated components. Modeling this data
indicates that the
D
+
A
-
complex product must dissociate with a rate constant slower than that
of the precursor, DA, complex. Theoretical
studies of the protein pair by Brownian dynamics simulations show that
Mb has a broad reactive surface which
encompasses the “hemisphere” that includes the exposed heme edge.
The most stable complexes occur when b
5
is
bound at one of two subdomains within this hemisphere. The
kinetics measurements and calculations taken together
allow us to discuss the relative importance of global and local
electrostatics in regulating protein−protein recognition
and reactivity.
The atomic structure of horse heart cyanomet-sulfmyoglobin C has been establied by x-ray crystalographic techniques to a resolution of 2.0 A with an R value of 0.129. The protoheme IX prosthetic group of this thermodynamically stable sulfnyoglobin derivative has been converted to a chlorin in which the pyrrole ring bearing the 4-vinyl group is saturated and possesses an exocyclic thiolene ring. This study provides the three-dimensional structure of a protein with an iron-chlorin prosthetic group. The overall conformation of the surrounding polypeptide chain of the modified protein is very similar to that of the native protein. However, the addition of the sufuratom has caused a distortion of the prosthetic group from that in the native protein to result in the repositioning of the side chains of some residues in the heme pocket.
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