Environmental Engineering Reference
In-Depth Information
Figure 7.
Working model for H
2
-dependent Tc(VII) reduction pathway in S. oneidensis.
is required to identify the individual components of the metal-specific terminal
reductase complexes.
Acknowledgements
This work was supported by grants from the National Science Foundation
and the Department of Energy.
References
[1]
Aller R.C. Bioturbation and Manganese Cycling in Hemipelagic Sediments. Philos T Roy
Soc A 1990;331:51-68.
[2]
Arnold R.G., DiChristina T.J. and Hoffmann M.R. Reductive dissolution of iron-oxides
by
Pseudomonas sp.
200. Biotech and Bioeng 1988;32:1081-96.
[3]
Aubert C., Brugna M., Dolla A., Bruschi M. and Giudici-Orticoni M.T. A sequential
electron transfer from hydrogenases to cytochromes in sulfate-reducing bacteria. Bba-
Protein Struct M 2000;1476(1):85-92.
[4]
Bagramyan K. and Trchounian A. Structural and functional features of formate hydro-
gen lyase, an enzyme of mixed-acid fermentation from
Escherichia coli
. Biochemistry-
Moscow 2003;68(11):1159-70.
[5]
Beliaev A.S. and Saffarini D.A.
Shewanella putrefaciens
mtrB encodes an outer membrane
protein required for Fe(III) and Mn(IV) reduction. J Bacteriol 1998;180(23):6292-(9)7.
[6]
Brettar I., Moore E.R.B. and Hofle M.G. Phylogeny and abundance of novel denitrify-
ing bacteria isolated from the water column of the central Baltic Sea. Microbial Ecol
2001;42(3):295-305.
[7]
Brooks S.C., Fredrickson J.K., Carroll S.L., Kennedy D.W., Zachara J.M., Plymale A.E.,
Kelly S.D., Kemner K.M. and Fendorf S. Inhibition of bacterial U(VI) reduction by
calcium. Environm Sci Technol 2003;37(9):1850-58.
[8]
Burnes B.S., Mulberry M.J. and DiChristina T.J. Design and application of two rapid
Screening techniques for isolation of Mn(IV) reduction-deficient Mutants of
Shewanella
putrefaciens
. Appl Environ Microbiol 1998;64(7):2716-20.
