Bactobilin: blue bile pigment isolated from Clostridium tetanomorphum.

Brumm, Phillip J.; Fried, Josef; Friedmann, Herbert

doi:10.1073/pnas.80.13.3943

Cited by 13 publications

(18 citation statements)

References 34 publications

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“…Strain AZ has been isolated from digested sludge of an anaerobic sewage treatment plant near Zürich, Switzerland (38), and the type strain DH1 has been isolated from wet-wood cores of trees growing near Madison, Wis. (39). Hemin is predicted to be available at relatively high concentrations in both anaerobic habitats, since in anaerobic environments heme released upon degradation of heme-containing proteins is only very slowly metabolized: known pathways require molecular oxygen to initiate heme degradation (8). It is therefore very likely that both M. arboriphilus strains also synthesize active catalase in their natural environments despite the fact that they cannot synthesize heme.…”

Section: Discussionmentioning

confidence: 99%

Characterization of a Heme-Dependent Catalase from Methanobrevibacter arboriphilus

Shima

Sordel-Klippert

Bryukhanov

et al. 2001

Appl Environ Microbiol

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Recently it was reported that methanogens of the genus Methanobrevibacter exhibit catalase activity. This was surprising, since Methanobrevibacter species belong to the order Methanobacteriales, which are known not to contain cytochromes and to lack the ability to synthesize heme. We report here that Methanobrevibacter arboriphilus strains AZ and DH1 contained catalase activity only when the growth medium was supplemented with hemin. The heme catalase was purified and characterized, and the encoding gene was cloned. The amino acid sequence of the catalase from the methanogens is most similar to that of Methanosarcina barkeri.Methanogens are anaerobic microorganisms that form methane as the end product of their energy metabolism. They all belong to the Archaea (34, 36). Five taxonomic orders of methanogens have been identified (4): Methanococcales, Methanobacteriales, Methanomicrobiales, Methanosarcinales, and Methanopyrales. Of these, the Methanosarcinales appear to have the most metabolic capabilities, as evidenced by a larger genome with twice as many open reading frames as other methanogens (see below), by the ability to utilize a broader spectrum of substrates (4), and by the possession of cytochromes (10,13,19) and of other heme-containing proteins such as catalase (30). Heme proteins appear to be lacking in members of the other orders (9,13,19,32) Given that only methanogens of the Methanosarcinales are capable of synthesizing heme, it was quite a surprise when Leadbetter and Breznak (20) reported that they had found catalase-like activity in Methanobrevibacter species that colonize the peripheral microoxic region of the hindgut of termites. The methanogens, which were shown to be relatively aerotolerant, reside on or near the hindgut epithelium. Catalase-like activity was also found in an authentic strain of Methanobrevibacter arboriphilus (formerly M. arboriphilicus) (1), indicating that the catalase-like activity was not restricted to the Methanobrevibacter species adapted to the hindgut of termites.One explanation for the findings in reference 20 could be that Methanobrevibacter species contain a nonheme catalase, such as the manganese catalase found in Thermus thermophilus (14) and lactic acid bacteria (12). This explanation was ruled out, however, by our finding, reported here, that catalase activity in M. arboriphilus strains was dependent on the presence of heme in the growth medium. We present evidence that M. arboriphilus contains a heme catalase which is formed from apoprotein synthesized by the methanogen and hemin taken up from the medium. MATERIALS AND METHODSOrganism, plasmid, phages, and chemicals. M. arboriphilus strains AZ (DSMZ 744) and DH1 (DSMZ 1125) were from the Deutsche Sammlung von Mikroorganismen und Zellkulturen (Braunschweig, Germany). The cloning vector ZAP Express, the helper phage ExAssist, Escherichia coli strains XL1 Blue-MRFЈ and XLOLR, and Pfu DNA polymerase were from Stratagene. Ampicillin, kanamycin, and 2,2Ј-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) diammonium ...

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Section: Discussionmentioning

confidence: 99%

Characterization of a Heme-Dependent Catalase from Methanobrevibacter arboriphilus

Shima

Sordel-Klippert

Bryukhanov

et al. 2001

Appl Environ Microbiol

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“…C. tetanomorphum (ATCC 19407) was grown overnight without agitation at 37°C in stoppered 1 1 bottles on a medium described earlier [1,8].…”

Section: Bacterial Growth and Extractsmentioning

confidence: 99%

“…A previous report [1] demonstrated the formation of an unusual blue bile pigment, bactobilin, when an enzyme preparation from Clostridium tetanomorphum was incubated with the tetrapyrrole precursor 8-aminolevulinate. This substance was the first bile pigment from a bacterial source and, in contrast to all eukaryotic bile pigments, it contained not two but eight carboxyl groups.…”

Section: Introductionmentioning

confidence: 97%

“…it was a urobiliverdin [5]. A comparison of the 1H NMR spectra of bactobilin octamethyl ester [1] with the 1H NMR spectra of the octamethyl esters of the five synthetic urobiliverdins derivable from uroporphyrins I and III unexpectedly established the side chains of bactobilin to have the repetitive alternating acetic acid, propionic acid sequence of uroporphyrin I [6]. The present work was undertaken to determine whether bacterial bile pigments related to the more prevalent uroporphyrin III can be formed as well.…”

Section: Introductionmentioning

confidence: 97%

“…C. tetanomorphum makes uroporphyrinogen III as corrinoid precursor [4], but it does not make heme, protoporphyrin IX, or uroporphyrins I and III. Optical, mass-spectral and 1H NMR evidence established bactobilin to be a bilatriene with the carboxylic side chains characteristic of a uroporphyrin [1], i.e. it was a urobiliverdin [5].…”

Section: Introductionmentioning

confidence: 99%

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Anaerobic breakdown of uroporpophysrins I and II to bile pigments by extracts of Clostridium tetanomorphum

Chen

1993

FEMS Microbiology Letters

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Two blue bile pigments were formed under anaerobic conditions from the tetrapyrrole precursor delta-aminolevulinate by cells and cell extracts of Clostridium tetanomorphum. These compounds were also formed by cell extracts from the octacarboxylic tetrapyrrole, uroporphyrin III. Bactobilin, the first bacterial bile pigment to be discovered, is related to uroporphyrin I. The present results hence increase the number of bile pigments related to bactobilin. Bactobilin and its isomers differ markedly from the eukaryotic bile pigments which are all related to the dicarboxylic compound, protoporphyrin IX. The enzyme participating in the formation of the bacterial bile pigments was obligatorily anaerobic, in decided contrast to the only other known bile pigment-forming enzyme, the eukaryotic oxygen-requiring heme oxygenase.

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Biosynthesis of Coenzyme F ₄₃₀ , A Nickel Porphinoid Involved in Methanogenesis

Thauer

Bonacker

2007

Novartis Foundation Symposia

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Bactobilin: blue bile pigment isolated from Clostridium tetanomorphum.

Cited by 13 publications

References 34 publications

Characterization of a Heme-Dependent Catalase from Methanobrevibacter arboriphilus

Characterization of a Heme-Dependent Catalase from Methanobrevibacter arboriphilus

Anaerobic breakdown of uroporpophysrins I and II to bile pigments by extracts of Clostridium tetanomorphum

Biosynthesis of Coenzyme F ₄₃₀ , A Nickel Porphinoid Involved in Methanogenesis

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Bactobilin: blue bile pigment isolated from Clostridium tetanomorphum.

Cited by 13 publications

References 34 publications

Characterization of a Heme-Dependent Catalase from Methanobrevibacter arboriphilus

Characterization of a Heme-Dependent Catalase from Methanobrevibacter arboriphilus

Anaerobic breakdown of uroporpophysrins I and II to bile pigments by extracts of Clostridium tetanomorphum

Biosynthesis of Coenzyme F 430 , A Nickel Porphinoid Involved in Methanogenesis

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Biosynthesis of Coenzyme F ₄₃₀ , A Nickel Porphinoid Involved in Methanogenesis