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1.
Biochem Soc Trans ; 33(Pt 1): 119-23, 2005 Feb.
Article in English | MEDLINE | ID: mdl-15667281

ABSTRACT

The obligately anaerobic ammonium oxidation (anammox) reaction with nitrite as primary electron acceptor is catalysed by the planctomycete-like bacteria Brocadia anammoxidans, Kuenenia stuttgartiensis and Scalindua sorokinii. The anammox bacteria use a complex reaction mechanism involving hydrazine as an intermediate. They have a unique prokaryotic organelle, the anammoxosome, surrounded by ladderane lipids, which exclusively contains the hydrazine oxidoreductase as the major protein to combine nitrite and ammonia in a one-to-one fashion. In addition to the peculiar microbiology, anammox was shown to be very important in the oceanic nitrogen cycle, and proved to be a very good alternative for treatment of high-strength nitrogenous waste streams. With the assembly of the K. stuttgartiensis genome at Genoscope, Evry, France, the anammox reaction has entered the genomic and proteomic era, enabling the elucidation of many intriguing aspects of this fascinating microbial process.


Subject(s)
Quaternary Ammonium Compounds/metabolism , Anaerobiosis , Oxidation-Reduction
2.
Appl Microbiol Biotechnol ; 63(2): 107-14, 2003 Dec.
Article in English | MEDLINE | ID: mdl-12955353

ABSTRACT

Recently, two fresh water species, " Candidatus Brocadia anammoxidans" and " Candidatus Kuenenia stuttgartiensis", and one marine species, " Candidatus Scalindua sorokinii", of planctomycete anammox bacteria have been identified. " Candidatus Scalindua sorokinii" was discovered in the Black Sea, and contributed substantially to the loss of fixed nitrogen. All three species contain a unique organelle--the anammoxosome--in their cytoplasm. The anammoxosome contains the hydrazine/hydroxylamine oxidoreductase enzyme, and is thus the site of anammox catabolism. The anammoxosome is surrounded by a very dense membrane composed almost exclusively of linearly concatenated cyclobutane-containing lipids. These so-called 'ladderanes' are connected to the glycerol moiety via both ester and ether bonds. In natural and man-made ecosystems, anammox bacteria can cooperate with aerobic ammonium-oxidising bacteria, which protect them from harmful oxygen, and provide the necessary nitrite. The cooperation of these two groups of ammonium-oxidising bacteria is the microbial basis for a sustainable one reactor system, CANON (completely autotrophic nitrogen-removal over nitrite) to remove ammonia from high strength wastewater.


Subject(s)
Bacteria, Anaerobic/metabolism , Fresh Water/microbiology , Quaternary Ammonium Compounds/metabolism , Seawater/microbiology , Anaerobiosis , Bioreactors , Oxidation-Reduction
3.
J Biol Chem ; 276(10): 6950-8, 2001 Mar 09.
Article in English | MEDLINE | ID: mdl-11102439

ABSTRACT

Expression of the structural genes for alcohol and aldehyde dehydrogenase, alcA and aldA, respectively, enables the fungus Aspergillus nidulans to grow on ethanol. The pathway-specific transcriptional activator AlcR mediates the induction of ethanol catabolism in the presence of a coinducing compound. Ethanol catabolism is further subject to negative control mediated by the general carbon catabolite repressor CreA. Here we show that, in contrast to alcA and alcR, the aldA gene is not directly subject to CreA repression. A single cis-acting element mediates AlcR activation of aldA. Furthermore, we show that the induction of the alc gene system is linked to in situ aldehyde dehydrogenase activity. In aldA loss-of-function mutants, the alc genes are induced under normally noninducing conditions. This pseudo-constitutive expression correlates with the nature of the mutations, suggesting that this feature is caused by an intracellular accumulation of a coinducing compound. Conversely, constitutive overexpression of aldA results in suppression of induction in the presence of ethanol. This shows unambiguously that acetaldehyde is the sole physiological inducer of ethanol catabolism. We hypothesize that the intracellular acetaldehyde concentration is the critical factor governing the induction of the alc gene system.


Subject(s)
Aldehyde Dehydrogenase/genetics , Aldehyde Dehydrogenase/metabolism , Aldehyde Dehydrogenase/physiology , Aspergillus nidulans/metabolism , Ethanol/metabolism , Gene Expression Regulation, Enzymologic , Alcohol Dehydrogenase/genetics , Alcohol Dehydrogenase/metabolism , Alleles , Binding Sites , Cell Division , Enhancer Elements, Genetic , Fungal Proteins , Models, Biological , Models, Genetic , Molecular Sequence Data , Mutation , Promoter Regions, Genetic , RNA/metabolism , Repressor Proteins , Transcription, Genetic , Transcriptional Activation , Transduction, Genetic
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