Er. Bauminger et al., Metal binding at the active centre of the ferritin of Escherichia coli (EcFtnA). A Mossbauer spectroscopic study, INORG CHIM, 297(1-2), 2000, pp. 171-180
Iron storage in the ferritin of Escherichia coli (EcFtnA) involves (1) the
catalytic oxidation of 2Fe(II) at a dinuclear centre (sites A and B) and of
a single Fe(II) at a nearby site C; (2) the formation of ore-bridged Fe(II
I) dimers (designated 'b') at A and B and isolated Fe3+ ions ('c') at site
C; (3) the conversion of the ore-bridged dimers to a second dimer form ('e'
) which is probably hydroxo-bridged; (4) the movement of iron into the iron
storage cavity where Fe(III) ferrhydrite clusters ('a' and 'd') form, and
(5) the provision on the surfaces of the mineral clusters of alternative si
tes for further Fe(II) oxidation as well as for the addition of Fe(III) fro
m the dinuclear centres. Each of the iron species gives rise to a character
istic Mossbauer subspectrum and Mossbauer spectroscopy has been used to stu
dy the early stages of iron storage with the aid of competing metal ions Zn
2+ and Tb3+. The effects of adding these metal ions both before and after F
e(II) have been examined with both wild type EcFtnA and its site directed v
ariants. These studies have provided evidence that both types of Fe(III) di
mers are located at the dinuclear centre and that with time dimers 'b' are
replaced by dimers 'e'. The effects of the competing metals are different:
Zn(II) has a lower affinity than Fe(III) for site C and does not displace i
t from C but is able to compete with both Fe(III) and Fe(II) for at least o
ne of the dimer sites. Tb(III) competes with Fe(III) for site C displacing
Fe(III) to the cavity to form clusters. The presence of these clusters may
accelerate loss of Fe(III) from the dimer sites to the cavity. (C) 2000 Els
evier Science S.A. All rights reserved.