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Pfenniger

Pf., abbrev. (Pfund) pound pfennig (Pferd, Pferde) horse, horsepower, H.P. [Pg.336]

Pfg. abbrev. pfennig, pfennigs, pfiff, prat, (of pfeifen) whistled, piped. [Pg.337]

Compressibility factors at low pressure for several major hydrocarbons are presented by Pfennig and McKetta. Compressibility charts for specific gases are given in Figures 12-14F-W. [Pg.391]

Imhoff-Stuckle D, N Pfennig (1983) Isolation and characterization of a nicotinic acid-degrading sulfate-reducing bacterium, Desulfococcus niacini sp. nov. Arch Microbiol 136 194-198. [Pg.83]

Schink B, N Pfennig (1982) Propionigenium modestum gen. nov., sp. nov., a new strictly anaerobic, nonspor-ing bacterium growing on succmute. Arch Microbiol 133 209-216. [Pg.87]

Szewzyk R, N Pfennig (1987) Complete oxidation of catechol by the strictly anaerobic sulfate-reducing Desulfobacterium catecholicum sp. nov. Arch Microbiol 147 163-168. [Pg.88]

Tschech A, N Pfennig (1984) Growth yield increase linked to caffeate reduction in Acetobacterium woodii. [Pg.276]

Both the synthesis of propionate and its metabolism may take place under anaerobic conditions. In Desulfobulbuspropionicum, degradation could plausibly take place by reversal of the steps used for its synthesis from acetate (Stams et al. 1984)—carboxylation of propionate to methylmalonate followed by coenzyme Bi2-mediated rearrangement to succinate, which then enters the tricarboxylic acid cycle. The converse decarboxylation of succinate to propionate has been observed in Propionigenium modestum (Schink and Pfennig 1982),... [Pg.319]

Pfennig N, H Biebl (1976) Desulfuromonas acetoxidans gen. nov. and sp. nov., a new anaerobic, sulfur-reducing, acetate-oxidizing Arch Microbiol 110 3-12. [Pg.332]

Widdel F, N Pfennig (1981) Sporulation and further nutritional characteristics of Desulfotomaculum acetoxi-dans (emend). Arch Microbiol 112 119-122. [Pg.336]

Schnell S, F Bak, N Pfennig (1989) Anaerobic degradation of aniline and dihydroxybenzenes by newly isolated sulfate-reducing bacteria and description of Desulfobacterium anilini. Arch Microbiol 152 556-563. [Pg.454]

As for the aerobic degradation of pyridines, hydroxylation of the heterocyclic ring is a key reaction in the anaerobic degradation of azaarenes by Clostridia. Whereas in Clostridium barkeri, the end products are carboxylic acids, CO2, and ammonium, the anaerobic sulfate-reducing Desulfococcus niacinii degraded nicotinate completely to CO2 (Imhoff-Stuckle and Pfennig 1983), although the details of the pathway remain incompletely resolved. [Pg.534]

Bache R, N Pfennig (1981) Selective isolation of Acetobacterium woodii on methoxylated aromatic acids and determination of growth yields. Arch Microbiol 130 255-261. [Pg.581]

Pfennig, N. General physiology and ecology of photosynthetic bacteria. In The Photosynthetic Bacteria (Clayton, R.K., Sistrom, W.R., eds.). New York Plenum Press 1978, pp. 3-18... [Pg.140]

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See also in sourсe #XX -- [ Pg.539 ]



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Principles of Inorganic Chemistry, First Edition. Brian W. Pfennig

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