Environmental Engineering Reference
In-Depth Information
[59]
Myers C.R. and Myers J.M. Cloning and sequence of cymA a gene encoding a tetraheme
cytochrome c required for reduction of iron(III), fumarate, and nitrate by
Shewanella
putrefaciens
MR-1. J Bacteriol 1997; 179(4):1143-52.
[60]
Myers J.M. and Myers C.R. Role of the tetraheme cytochrome CymA in anaerobic electron
transport in cells of
Shewanella putrefaciens
MR-1 with normal levels of menaquinone.
J Bacteriol 2000; 182(1):67-75.
[61]
Myers J.M. and Myers C.R. Role for outer membrane cytochromes OmcA and OmcB
of
Shewanella putrefaciens
MR-1 in reduction of manganese dioxide. Appl Environ
Microbiol 2001; 67(1):260-69.
[62]
Myers C.R. and Myers J.M. MtrB is required for proper incorporation of the cytochromes
OmcA and OmcB into the outer membrane of
Shewanella putrefaciens
MR-1. Appl
Environ Microbiol 2002; 68(11):5585-94.
[63]
Myers J.M. and Myers C.R. Overlapping role of the outer membrane cytochromes of
She-
wanella oneidensis
MR-1 in the reduction of manganese(IV) oxide. Lett Appl Microbiol
2003; 37(1):21-5.
[64]
Nealson K.H., Myers C.R. and Wimpee B.B., Isolation and identification of manganese-
Reducing bacteria and estimates of microbial Mn(Iv)-Reducing Potential in the Black-Sea.
Deep-Sea Res 1991; 38:907-20.
[65]
Nealson K.H. and Myers C.R. Microbial reduction of manganese and iron: new approaches
to carbon cycling. Appl Environ Microbiol 1992; 58(2):439-43.
[66]
Nealson K.H. and Saffarini D. Iron and manganese in anaerobic respiration: environmental
significance, physiology, and regulation. Annu Rev Microbiol 1994; 48:311-43.
[67]
Nevin K.P. and Lovley D.R. Mechanisms for accessing insoluble Fe(III) oxide during
dissimilatory Fe(III) reduction by
Geothrix fermentans
. Appl Environ Microbiol 2002;
68(5):2294-99.
[68]
Newman D.K. and Kolter R. A role for excreted quinones in extracellular electron transfer.
Nature 2000; 405(6782):94-97.
[69]
Paquette
J.
and
Lawrence
W.E.
A
Spectroelectrochemical
Study
of
the
Tech-
netium(IV/Technetium(III)
Couple
in
bicarbonate
solutions.
Can
J
Chem
1985;
63(9):2369-73.
[70]
Pasilis S.P. and Pemberton J.E. Speciation and coordination chemistry of uranyl(VI)-
citrate complexes in aqueous solution. Abstr Pap Am Chem S 2003; 225:U807-U807.
[71]
Payne R.B., Gentry D.A., Rapp-Giles B.J., Casalot L. and Wall J.D. Uranium reduction
by
Desulfovibrio desulfuricans
strain G20 and a cytochrome c3 mutant. Appl Environ
Microb 2002; 68(6):3129-32.
[72]
Payne A.N. and Dichristina T.J. H
2
and lactate-dependent Tc(VII) reduction-deficient
mutants of
Shewanella oneidensis
MR-1 retain formate-dependent Tc(VII) reduction
activity, 2004.
[73]
Pitts K.E., Dobbin P.S., Reyes-Ramirez F., Thomson A.J., Richardson D.J. and Seward
H.E. Characterization of the
Shewanella oneidensis
MR-1 decaheme cytochrome MtrA:
expression in
Escherichia coli
confers the ability to reduce soluble Fe(III) chelates. J Biol
Chem 2003; 278(30):27758-65.
[74]
Rai D., Felmy A.R., and Ryan J.L. Uranium(Iv) hydrolysis constants and solubility
product of UO
2
ยท
H
2
O (am). Inorganic Chemistry 1990; 29(2):260-64.
