Electron microscopic analysis and structural characterization of novel NADP(H)-containing methanol: N,N'-dimethyl-4-nitrosoaniline oxidoreductases from the gram-positive methylotrophic bacteria Amycolatopsis methanolica and Mycobacterium gastri MB19

Bystrykh, Leonid; Vonck, Janet; Bruggen, E.F.J. Van; Beeumen, Jozef Van; Samyn, Bart; Govorukhina, Natalya I.; Arfman, N; Duine, Johannis A.; Dijkhuizen, Lubbert

doi:10.1128/jb.175.6.1814-1822.1993

Cited by 50 publications

(38 citation statements)

References 25 publications

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“…Among Gram-positive methylotrophic bacteria, Bacillus methanolicus C1 uses NAD-dependent nicotinoprotein MDH (Arfman et al, 1989(Arfman et al, , 1997Hektor et al, 2002), and Amycolatopsis methanolica, Mycobacterium gastri MB19, Rhodococcus rhodochrous LMD 89.129 and Rhodococcus erythropolis DSM 1069 use N,N9-dimethyl-4-nitrosoaniline (DMNA)-dependent nicotinoprotein methanol : DMNA oxidoreductase (MDO) (Bystrykh et al, 1993a, b;van Ophem et al, 1993) for the oxidation of methanol. This MDO is similar to the NAD-dependent MDH of B. methanolicus C1 in quaternary structure, cofactor composition, tightly but non-covalently bound NAD(P)(H) and enzymic properties (Bystrykh et al, 1993b;Hektor et al, 2002;van Ophem et al, 1993;Vonck et al, 1991). The MDO also has enzymic properties different from those of the B. methanolicus C1 MDH: MDO exhibits DMNA-dependent MDH, NADHdependent formaldehyde reductase and formaldehyde dismutase activities (Hektor et al, 2000), while B. methanolicus C1 MDH only displays NAD-dependent MDH and NADH-dependent formaldehyde reductase activities (Arfman et al, 1989).…”

Section: Introductionmentioning

confidence: 90%

Identification and functional characterization of a gene for the methanol : N,N'-dimethyl-4-nitrosoaniline oxidoreductase from Mycobacterium sp. strain JC1 (DSM 3803)

Park

Lee

et al. 2009

Microbiology

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Mycobacterium sp. strain JC1 is able to grow on methanol as a sole source of carbon and energy using methanol : N,N′-dimethyl-4-nitrosoaniline oxidoreductase (MDO) as a key enzyme for primary methanol oxidation. Purified MDO oxidizes ethanol and formaldehyde as well as methanol. The Mycobacterium sp. strain JC1 gene for MDO (mdo) was cloned, sequenced, and determined to have an open reading frame of 1272 bp. Northern blot and promoter analysis revealed that mdo transcription was induced in cells grown in the presence of methanol. Northern blotting together with RT-PCR also showed that the mdo gene was transcribed as monocistronic mRNA. Primer extension analysis revealed that the transcriptional start site of the mdo gene is located 21 bp upstream of the mdo start codon. An mdo-deficient mutant of Mycobacterium sp. strain JC1 did not grow with methanol as a sole source of carbon and energy.

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Section: Introductionmentioning

confidence: 90%

Identification and functional characterization of a gene for the methanol : N,N'-dimethyl-4-nitrosoaniline oxidoreductase from Mycobacterium sp. strain JC1 (DSM 3803)

Park

Lee

et al. 2009

Microbiology

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“…Electrophoresis in the presence of SDS revealed one band with 39 kDa. Electron microscopy of the enzyme did not show the presence of decamers, as has been observed with MFF [2] and methanol dehydrogenase from Bacillus methanolica C1 [20].…”

Section: Purification and Characterization Of Ndma-adhmentioning

confidence: 96%

“…2), thereby resembling the absorption spectra of MFF [2] and of methanol dehydrogenase (N. Arfman et al, unpublished results), but not that of (rabbit muscle) glyceraldehyde-3-phosphate dehydrogenase (which also contains tightly bound NAD) which has an absorption maximum at 360nm [24]. Samples of enzyme denaturated by heating were inactive in the pyrroloquinoline quinone assay and also flavins were absent, as judged from the absorption spectrum.…”

Section: Purification and Characterization Of Ndma-adhmentioning

confidence: 99%

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Nicotinoprotein [NAD(P)‐containing] alcohol/aldehyde oxidoreductases

Ophem

Beeumen

Duine

1993

European Journal of Biochemistry

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Extracts of Gram-positive bacteria like Rhodococcus rhodochrous, Rhodococcus erythropolisand Amycolatopsis methanolica, but not those of several Gram-negative ones, showed dehydrogenase activity for ethanol as well as for methanol when 4-nitroso-N, N-dimethylaniline (NDMA) was used as electron acceptor. Chromatography of extracts of the first two organisms revealed one activity for both substrates, that of A. methanolica two activities, one of which is able to oxidize methanol and has been purified (Bystrykh, L. V., Govorukhina, N. I., van Ophem, P. W., Hektor, H. J., Dijkhuizen, L. and Duine, J. A., unpublished results). The other, indicated as NDMA-dependent alcohol dehydrogenase (NDMA-ADH), was purified to homogeneity. It is a trimeric enzyme consisting of subunits of 39 kDa and one firmly bound NAD as cofactor. Although NDMA-ADH shows structural similarity with the long-chain, zinc-containing, NAD(P)-dependent alcohol dehydrogenases with respect to the N-terminal sequence up to residue 41 (56% identity with horse liver alcohol dehydrogenase), the enzymes are catalytically different since NDMA-ADH is unable to use NAD(P)(H) as a coenzyme and NAD(P)-dependent alcohol dehydrogenases are inactive with NDMA (in the absence of NAD). Comparison of the NDMA-ADH properties with those of the methanol-oxidizing enzyme of A. methanolica, Mycobacterium gastri and Bacillus methanolica C1, and formaldehyde dismutase of Pseudomonas putida F61 revealed large differences in structural as well as catalytic properties, in spite of the fact that all are nicotinoproteins [enzymes which have bound NAD(P) as a cofactor]. It is concluded, therefore, that NDMA-ADH is a novel type of nicotinoprotein alcohol dehydrogenase.In the search for a methanol-oxidizing activity in Amycolatopsis methanolica, an assay able to detect alcohol dehydrogenases having NAD(P) as cofactor was applied, using 4-nitroso-N, N-dimethylaniline (NDMA) as electron acceptor [ 1). However, upon applying anion-exchange chromatography on extracts exhibiting such a property, two separate activities were found in the eluted fractions, one showing activity with alcohols including methanol, the other excluding methanol. The enzyme responsible for the first activity [the Correspondence to J. A. Duine,

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“…These enzymes are known to be involved in methanol oxidation in methylotrophic bacteria, 6) and NDMA-dependent MDHs have only been found in Gram-positive methylotrophic bacteria. 5,7) These results led us to think that oligotrophic growth would involve methanol metabolism in N9T-4, although this bacterium cannot utilize methanol as the sole carbon source. We attempted to search for other genes involved in methanol metabolism in the draft genome sequence of N9T-4 which has recently been determined by our group.…”

Section: Resultsmentioning

confidence: 99%

Gene Expression Analysis of Methylotrophic Oxidoreductases Involved in the Oligotrophic Growth ofRhodococcus erythropolisN9T-4

Yoshida

Hayasaki

Takagi

2011

Bioscience, Biotechnology, and Biochemistry

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Electron microscopic analysis and structural characterization of novel NADP(H)-containing methanol: N,N'-dimethyl-4-nitrosoaniline oxidoreductases from the gram-positive methylotrophic bacteria Amycolatopsis methanolica and Mycobacterium gastri MB19

Cited by 50 publications

References 25 publications

Identification and functional characterization of a gene for the methanol : N,N'-dimethyl-4-nitrosoaniline oxidoreductase from Mycobacterium sp. strain JC1 (DSM 3803)

Identification and functional characterization of a gene for the methanol : N,N'-dimethyl-4-nitrosoaniline oxidoreductase from Mycobacterium sp. strain JC1 (DSM 3803)

Nicotinoprotein [NAD(P)‐containing] alcohol/aldehyde oxidoreductases

Gene Expression Analysis of Methylotrophic Oxidoreductases Involved in the Oligotrophic Growth ofRhodococcus erythropolisN9T-4

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