Cástor Menéndez scite author profile

The pathway of autotrophic CO2 fixation was studied in the phototrophic bacterium Chloroflexus aurantiacus and in the aerobic thermoacidophilic archaeon Metallosphaera sedula. In both organisms, none of the key enzymes of the reductive pentose phosphate cycle, the reductive citric acid cycle, and the reductive acetyl coenzyme A (acetyl-CoA) pathway were detectable. However, cells contained the biotin-dependent acetyl-CoA carboxylase and propionyl-CoA carboxylase as well as phosphoenolpyruvate carboxylase. The specific enzyme activities of the carboxylases were high enough to explain the autotrophic growth rate via the 3-hydroxypropionate cycle. Extracts catalyzed the CO2-, MgATP-, and NADPH-dependent conversion of acetyl-CoA to 3-hydroxypropionate via malonyl-CoA and the conversion of this intermediate to succinate via propionyl-CoA. The labelled intermediates were detected in vitro with either 14CO2 or [14C]acetyl-CoA as precursor. These reactions are part of the 3-hydroxypropionate cycle, the autotrophic pathway proposed forC. aurantiacus. The investigation was extended to the autotrophic archaea Sulfolobus metallicus andAcidianus infernus, which showed acetyl-CoA and propionyl-CoA carboxylase activities in extracts of autotrophically grown cells. Acetyl-CoA carboxylase activity is unexpected in archaea since they do not contain fatty acids in their membranes. These aerobic archaea, as well as C. aurantiacus, were screened for biotin-containing proteins by the avidin-peroxidase test. They contained large amounts of a small biotin-carrying protein, which is most likely part of the acetyl-CoA and propionyl-CoA carboxylases. Other archaea reported to use one of the other known autotrophic pathways lacked such small biotin-containing proteins. These findings suggest that the aerobic autotrophic archaea M. sedula,S. metallicus, and A. infernus use a yet-to-be-defined 3-hydroxypropionate cycle for their autotrophic growth. Acetyl-CoA carboxylase and propionyl-CoA carboxylase are proposed to be the main CO2 fixation enzymes, and phosphoenolpyruvate carboxylase may have an anaplerotic function. The results also provide further support for the occurrence of the 3-hydroxypropionate cycle in C. aurantiacus.

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MoaA of Arthrobacter nicotinovorans pAO1 involved in Mo‐Pterin cofactor synthesis is an Fe‐S protein

Menéndez

¹

,

Siebert

²

,

Brandsch

³

1996

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A pAO1-encoded molybdopterin cofactor gene (moaA) ofArthrobacter nicotinovorans: characterization and site-directed mutagenesis of the encoded protein

Menéndez

¹

,

Igloi

²

,

Henninger

³

et al. 1995

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A gene homologous to moaA, the gene responsible for the expression of a protein involved in an early step in the synthesis of the molybdopterin cofactor of Escherichia coli, was found to be located 2.7-kb upstream of the nicotine dehydrogenase (ndh) operon on the catabolic plasmid pAO1 of Arthrobacter nicotinovorans. The MoaA protein, containing 354 amino acids, migrated on an SDS-polyacrylamide gel with an apparent molecular weight of 40,000, in good agreement with the predicted molecular weight of 38,880. The pAO1-encoded moaA gene from A. nicotinovorans was expressed in E. coli as an active protein that functionally complemented moaA mutants. Its deduced amino acid sequence shows 43% identity to the E. coli MoaA, 44% to the NarAB gene product from Bacillus subtilis, and 42% to the gene product of two contiguous ORFs from Methanobacterium formicicum. N-terminal sequences, including the motif CxxxCxYC, are conserved among the MoaA and NarAB proteins. This motif is also present in proteins involved in PQQ cofactor synthesis in almost all the NifB proteins reported so far and in the fixZ gene product from Rhizobium leguminosarum. Mutagenesis of any of these three conserved cysteine residues to serine abolished the biological activity of MoaA, while substitution of the tyrosine by either serine, phenylalanine, or alanine did not alter the capacity of the protein to complement the moaA mutation in E. coli. A second Cys-rich domain with the motif FCxxC(13x)C is found close to the C-terminus of MoaA and NarAB proteins. These two Cys-rich sequences may be involved in the coordination of a metal ions. The pAO1 copy of moaA may not be unique in the A. nicotinovorans genome since the molybdopterin cofactor oxidation products were detected in cell extracts from a plasmidless strain.

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A pAO1-encoded molybdopterin cofactor gene ( moaA ) of Arthrobacter nicotinovorans : characterization and site-directed mutagenesis of the encoded protein

Menéndez

¹

,

Igloi

²

,

Henninger

³

et al. 1995

Archives of Microbiology

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A gene homologous to moaA, the gene responsible for the expression of a protein involved in an early step in the synthesis of the molybdopterin cofactor of Escherichia coli, was found to be located 2.7-kb upstream of the nicotine dehydrogenase (ndh) operon on the catabolic plasmid pAO1 of Arthrobacter nicotinovorans. The MoaA protein, containing 354 amino acids, migrated on an SDS-polyacrylamide gel with an apparent molecular weight of 40,000, in good agreement with the predicted molecular weight of 38,880. The pAO1-encoded moaA gene from A. nicotinovorans was expressed in E. coli as an active protein that functionally complemented moaA mutants. Its deduced amino acid sequence shows 43% identity to the E. coli MoaA, 44% to the NarAB gene product from Bacillus subtilis, and 42% to the gene product of two contiguous ORFs from Methanobacterium formicicum. N-terminal sequences, including the motif CxxxCxYC, are conserved among the MoaA and NarAB proteins. This motif is also present in proteins involved in PQQ cofactor synthesis in almost all the NifB proteins reported so far and in the fixZ gene product from Rhizobium leguminosarum. Mutagenesis of any of these three conserved cysteine residues to serine abolished the biological activity of MoaA, while substitution of the tyrosine by either serine, phenylalanine, or alanine did not alter the capacity of the protein to complement the moaA mutation in E. coli. A second Cys-rich domain with the motif FCxxC(13x)C is found close to the C-terminus of MoaA and NarAB proteins. These two Cys-rich sequences may be involved in the coordination of a metal ions. The pAO1 copy of moaA may not be unique in the A. nicotinovorans genome since the molybdopterin cofactor oxidation products were detected in cell extracts from a plasmidless strain.

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