Environmental Engineering Reference
In-Depth Information
[75]
Rard J.A. Critical review of the chemistry and thermodynamics of technetium and some of
its inorganic compounds and aqueous species. UCRL-53440, ed. Livermore, California:
L.L.N. Laboratory, 1983.
[76]
Saffarini D.A., Blumerman S.L. and Mansoorabadi K.J. Role of menaquinones in
Fe(III) reduction by membrane fractions of
Shewanella putrefaciens
. J Bacteriol 2002;
184(3):846-48.
[77]
Schwalb C., Chapman S.K. and Reid G.A. The tetraheme cytochrome CymA is required
for anaerobic respiration with dimethyl sulfoxide and nitrite in
Shewanella oneidensis
.
Biochemistry 2003; 42(31):9491-97.
[78]
Shewan J.M., Hobbs G. and Hodgkiss W. A determinative scheme for the identification
of certain genera of gram-negative bacteria with special reference to
Pseudomonadaceae
.
J Appl Bacteriol 1960; 23:379-90.
[79]
Shyu J.B., Lies D.P. and Newman D.K. Protective role of tolC in efflux of the electron
shuttle anthraquinone-2,6-disulfonate. J Bacteriol 2002; 184(6):1806-10.
[80]
Simon J., Gross R., Einsle O., Kroneck P.M.H., Kroger A. and Klimmek O. A NapC/NirT-
type cytochrome c (NrfH) is the mediator between the quinone pool and the cytochrome
c nitrite reductase of Wolinella succinogenes. Mol Microbiol 2000; 35(3):686-96.
[81]
Simon J. Enzymology and bioenergetics of respiratory nitrite ammonification. FEMS
Microbiol Rev 2002; 26(3):285-309.
[82]
Suzuki Y., Kelly S.D., Kemner K.M. and Banfield J.F. Radionuclide contamination -
Nanometer-size products of uranium bioreduction. Nature 2002; 419(6903):134-134.
[83]
Taillefert M., Lau D., Burns J. and DiChristina T.J. Non-reductive dissolution of solid
Fe(III) oxides by Fe(III)-respiring
Shewanella
. Manuscript in preparation, 2004.
[84]
Taratus E.M., Eubanks S.G. and DiChristina T.J. Design and application of a rapid
screening technique for isolation of selenite reduction-deficient mutants of
Shewanella
putrefaciens
. Microbiol Res 2000; 155(2):79-85.
[85]
Thamdrup B., Rossello-Mora R. and Amann R. Microbial manganese and sulfate reduc-
tion in Black Sea shelf sediments. Appl Environ Microbiol 2000; 66(7):2888-97.
[86]
Turick C.E., Tisa L.S. and Caccavo F. Jr. Melanin production and use as a soluble electron
shuttle for Fe(III) oxide reduction and as a terminal electron acceptor by
Shewanella algae
BrY. Appl Environ Microbiol 2002; 68(5):2436-44.
[87]
Venkateswaran K., Moser D.P., Dollhopf M.E., Lies D.P., Saffarini D.A., MacGregor
B.J., Ringelberg D.B., White D.C., Nishijima M., Sano H., Burghardt J., Stackebrandt
E. and Nealson K.H. Polyphasic taxonomy of the genus
Shewanella
and description of
Shewanella oneidensis
sp. nov. Int J Syst Bacteriol 1999; 49 Pt 2:705-24.
[88]
Venter J.C., Remington K., Heidelberg J.F., Halpern A.L., Rusch D., Eisen J.A., Wu D.Y.,
Paulsen I., Nelson K.E., Nelson W., Fouts D.E., Levy S., Knap A.H., Lomas M.W., Nealson
K., White O., Peterson J., Hoffman J., Parsons R., Baden-Tillson H., Pfannkoch C., Rogers
Y.H. and Smith H.O. Environmental genome shotgun sequencing of the Sargasso Sea.
Science 2004; 304(5667):66-74.
[89]
Wade R. and DiChristina T.J. Isolation of U(VI) reduction-deficient mutants of
Shewanella
putrefaciens
. FEMS Microbiol Lett 2000; 184(2):143-48.
[90]
Wielinga B., Bostick B., Hansel C.M., Rosenzweig R.F. and Fendorf S. Inhibition of
bacterially promoted uranium reduction: Ferric (hydr)oxides as competitive electron ac-
ceptors. Environ Sci Technol 2000; 34(11):2190-95.
