P. Bonora et al., On the role of high-potential iron-sulfur proteins and cytochromes in the respiratory chain of two facultative phototrophs, BBA-BIOENER, 1410(1), 1999, pp. 51-60
The capability of high potential iron-sulfur proteins (HiPIPs) and soluble
cytochromes to shuttle electrons between the bc(1) complex and the terminal
oxidase in aerobically grown cells of Rhonoferax fermentans and Rhodospiri
llum salinarum, two facultative phototrophs, was evaluated. In Rs. salinaru
m, HiPIP and a c-type cytochrome (alpha-band at 550 nm, E-m,E-7 = +290 mV)
are both involved in the electron transfer step from the bc(1) complex to t
he terminal oxidase. Kinetic studies indicate that cytochrome c(550) is mor
e efficient than HiPIP in oxidizing the bc(1) complex, and that HiPIP is a
more efficient reductant of the terminal oxidase as compared to cytochrome
c(550). Rs. salinarum cells contain an additional c-type cytochrome (asymme
tric alpha-band at 556 nm, E-m,E-7 = +180 mV) which is able to reduce the t
erminal oxidase, but unable to oxidize the bc(1) complex. c-type cytochrome
s could not be isolated from Rf: fermentans, in which HiPIP, the most abund
ant soluble electron carrier, is reduced by the bc(1) complex (zero-order k
inetics) and oxidized by the terminal oxidase (first-order kinetics), respe
ctively. These data, taken together, indicate for the first time that HiPIP
s play a significant role in bacterial respiratory electron transfer. (C) 1
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