Inorganic Microbial Sulfur Metabolism: Volume 243
- Hardback | 682 pages
- 158 x 228 x 38mm | 1,102.24g
- 10 Nov 1994
- Elsevier Science Publishing Co Inc
- Academic Press Inc
- San Diego, United States
Other books in this series
11 Oct 2012
19 Oct 2012
13 Jul 2017
15 Nov 2013
01 Dec 2009
27 Mar 2012
21 Aug 2013
09 Aug 2017
18 Aug 2017
19 Aug 2013
12 Sep 2013
15 Sep 2017
Mitochondrial Function: Mitochondrial Function, Part A Mitochondrial Electron Transport Complexes and Reactive Oxygen Species: Pt. A Volume 456
19 May 2009
27 Mar 2012
27 Jan 2017
21 Feb 2013
"Incomparably useful." --ANALYTICAL BIOCHEMISTRY
"It is a true 'methods' series, including almost every detail from basic theory to sources of equipment and reagents, with timely documentation provided on each page." --BIO/TECHNOLOGY
"The series has been following the growing, changing and creation of new areas of science. It should be on the shelves of all libraries in the world as a whole collection." --CHEMISTRY IN INDUSTRY
"The appearance of another volume in that excellent series, Methods in Enzymology, is always a cause for appreciation for those who wish to successfully carry out a particular technique or prepare an enzyme or metabolic intermediate without the tiresome prospect of searching through unfamiliar literature and perhaps selecting an unproven method which is not easily reproduced." --AMERICAN SOCIETY OF MICROBIOLOGY NEWS
"If we had some way to find the work most often consulted in the laboratory, it could well be the multi-volume series Methods in Enzymology...a great work." --ENZYMOLOGIA
"A series that has established itself as a definitive reference for biochemists." --JOURNAL OF CHROMATOGRAPHY
Table of contents
H.Cypionka, Sulfate Transport. Dissimilatory Sulfate Reduction: A. Dehydrogenases: Hydrogenases from Sulfate-Reducing Bacteria:
T.A. Hansen and C.M.H. Hensgens, NAD-Dependent Alcohol Dehydrogenase from Desulfovibrio gigas.
T.A. Hansen, NAD(P)-Independent Lactate Dehydrogenase from Sulfate-Reducing Prokaryotes.
J.J.G. Moura and B.A.S. Barata, Aldehyde Oxidoreductases and Other Molybdenum-Containing Enzymes.
R. Cammack, V.M.F. Lopez, and E.C. Hatchikian, Nickel-Iron Hydrogenase.
D.S. Patil, Nickel-Iron-Selenium Hydrogenase.
L.L. Barton, The Pyruvic Acid Phosphoroclastic Reaction.
B. Electron Carrier Proteins from Sulfate-Reducing Bacteria:
T. Yagi, Monoheme Cytochromes.
I.B. Coutinho and A.V. Xavier, Tetraheme Cytochromes.
M. Bruschi, Cytochrome c3 (Mr 26,000) Isolated from Sulfate-Reducing Bacteria and Its Relationships to Other Polyhemic Cytochromes from Desulfovibrio.
Y. Higuchi, T. Yagi, and G. Voordouw, Hexadecaheme Cytochrome c.
J.J.G. Moura, A.L. Macedo, and P.N. Palma, Ferredoxins.
J. Vervoort, D. Heering, S. Peelen, and W. van Berkel, Flavodoxins.
L.C. Sieker, R.E. Stenkamp, and J.LeGall, Rubredoxin in the Crystalline State.
I. Moura, P. Tavares, and N. Ravi, Characterization of Three Proteins Containing Multiple Iron Sites: Rubrerythrin, Desulfoferrodoxin and a Protein Containing a Six-Iron Cluster.
C. Terminal Reductases of Sulfate-Reducing Bacteria:
J. Lampreia, A.S. Pereira, and J.J.G. Moura, Adenylylsulfate Reductases from Sulfate-Reducing Bacteria.
J.M. Akagi, H.L. Drake, J.-H. Kim, and D. Gevertz, Thiosulfate and Trithionate Reductases.
D.V. DerVartanian, Desulforubidin: Dissimilatory, High-Spin Sulfite Reductase of Desulfomicrobium Species.
E.C. Hatchikian, Desulfofuscidin: Dissimilatory, High-Spin Sulfite Reductase of Thermophilic, Sulfate-Reducing Bacteria.
I. Moura and A.R. Lino, Low-Spin Sulfite Reductases.
M.-C. Liu, C. Costa, and I. Moura, Hexaheme Nitrite-Reductase from Desulfovibrio desulfuricans (ATCC 27774).
D. Molecular Biology:
W.M.A.M. van Dongen, J.P.W.G Stokkermans, and W.A.M. van der Berg, Genetic Manipulation of Desulfovibrio. C.
Dahl, N. Speich, and H.G. Traper, Enzymology and Molecular Biology of Sulfate Reduction in the Extremely Thermophilic Archeon Archaeoglobus fulgidus.
Dissimilatory Sulfur Reduction:
G.D. Fauque, Sulfur Reductase from Thiophilic Sulfate-Reducing Bacteria.
G.D. Fauque, O. Klimmek, and A. Kriger, Sulfur Reductases from Spirilloid Mesophilic Sulfur-Reducing Eubacteria.
Oxidation of Reduced Sulfur Compounds:
J.W. Ingledew and D.H. Boxer, Purification of Rusticyanin, a Blue Copper Protein from Thiobacillus ferrooxidans.
B.F. Taylor, Adenylylsulfate Reductases from Thiobacilli.
C. Dahl and H.G. Traper, Enzymes of Dissimilatory Sulfide Oxidation in Phototrophic Sulfur Bacteria.
H.G. Traper, Reverse Siroheme Sulfite Reductase from Thiobacillus denitrificans.
T.E. Meyer, Purification and Properties of Cytochrome c-555 from Phototrophic Green Sulfur Bacteria.
T.E. Meyer, Purification and Properties of High-Potential Iron-Sulfur Proteins.
I. Suzuki, Sulfite: Cytochrome c Oxidoreductase of Thiobacilli.
I. Suzuki, Sulfur-Oxidizing Enzymes.
T. Yamanaka, Sulfide-Cytochrome c Reductase (Flavocytochrome c).
Metabolism of Polythionates:
D.P. Kelly and A.P. Wood, Synthesis and Determination of Thiosulfate and Polythionates.
D.P. Kelly and A.P. Wood, Enzymes Involved in the Microbiological Oxidation of Thiosulfate and Polythionates.
D.P. Kelly and A.P. Wood, Whole-Organism Methods for Inorganic Sulfur Oxidation by Chemolithotrophs and Photolithotrophs.
B.H. Huynh, Missbauer Spectroscopy in Study of Cytochrome cd1 from Thiobacillus denitrificans, Desulfoviridin, and Iron Hydrogenase.
H. Santos, P. Fareleira, J. LeGall, and A.V. Xavier, In Vivo Nuclear Magnetic Resonance in Study of Physiology of Sulfate-Reducing Bacteria.
J.E. Wampler, Computational Chemistry and Molecular Modeling of Electron-Transfer Proteins.
J.M. Odom and R.C. Ebersole, Immunoassay of Sulfate-Reducing Bacteria in Environmental Samples.