Studies by electron-paramagnetic-resonance spectroscopy of the molybdenum centre of aldehyde oxidase

Bray, Robert C.; George, Graham N.; Gutteridge, Steven; Norlander, L; Stell, J. G. P.; Stubley, C.

doi:10.1042/bj2030263

Cited by 23 publications

(12 citation statements)

References 18 publications

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“…The UV/vis absorption spectrum and the spectral change observed on reduction of either the native or deflavo form of aldehyde oxidase from rabbit liver is essentially indistinguishable from that shown in Figure for milk xanthine oxidase. , As with xanthine dehydrogenase from liver sources, earlier preparations of aldehyde oxidase yielded small amounts (∼5% of the enzyme molybdenum) of a “resting” Mo(V) EPR signal that apparently arises from enzyme that has been inactivated by treatment with organic solvent. It is possible to obtain enzyme in a form that is devoid of this signal. ,, The “rapid type 2” Mo(V) EPR signal is readily seen with aldehyde oxidase and is quite similar to that seen with xanthine oxidase ( g 1,2,3 = 1.9895, 1.9701, 1.9624; a av = 14 and 8.3 G for the two strongly coupled protons). , The second proton is coupled less strongly in the “type 2” signal in aldehyde oxidase than is seen with xanthine oxidase, however, and the signal-giving species seen in aldehyde oxidase is considered to be intermediate in some conformational sense to the species giving the “type 1” and “type 2” signals in xanthine oxidase. The implication is that the second proton of both signal-giving species is bound at the same site in the two signal-giving species, with the difference between them involving differences in coordination geometry and/or orientation of substrate with respect to the molybdenum center .…”

Section: E Mammalian Aldehyde Oxidasesmentioning

confidence: 70%

“…Mo(V) signals corresponding closely to the “arsenite-inhibited” and “slow” signals seen with xanthine oxidase are also observed with aldehyde oxidase . Neither the “very rapid” or “rapid type 1” Mo(V) signals have been unambiguously documented with aldehyde oxidase using N -methylnicotinamide as substrate, however, although a “rapid type 1” signal is observed when 2-methylquinonine is used. , …”

Section: E Mammalian Aldehyde Oxidasesmentioning

confidence: 91%

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The Mononuclear Molybdenum Enzymes

1996

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Section: E Mammalian Aldehyde Oxidasesmentioning

confidence: 70%

Section: E Mammalian Aldehyde Oxidasesmentioning

confidence: 91%

The Mononuclear Molybdenum Enzymes

1996

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“…EPR investigation of the aerobically purified protein revealed the so‐called ‘ desulpho‐inhibited ’ molybdenum‐cluster (Fig. 6a) as also found in nonfunctional forms of xanthine oxidase and aldehyde oxidase [32]. The g ‐values[32a] ( g xyz = 1.96, 1.97, 1.98, g av = 1.97) were in good agreement with those reported for the aldehyde oxidase from rabbit liver [33], although our samples were not treated with dithionite nor with ethylene glycol, indicating that any kind of modification had already occurred during the purification procedure.…”

Section: Resultsmentioning

confidence: 99%

The strict molybdate‐dependence of glucose‐degradation by the thermoacidophile Sulfolobus acidocaldarius reveals the first crenarchaeotic molybdenum containing enzyme – an aldehyde oxidoreductase

Kardinahl

Schmidt

Hansen

et al. 1999

European Journal of Biochemistry

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In order to investigate the effects of trace elements on different metabolic pathways, the thermoacidophilic Crenarchaeon Sulfolobus acidocaldarius (DSM 639) has been cultivated on various carbon substrates in the presence and absence of molybdate. When grown on glucose (but neither on glutamate nor casein hydrolysate) as sole carbon source, the lack of molybdate results in serious growth inhibition. By analysing cytosolic fractions of glucose adapted cells for molybdenum containing compounds, an aldehyde oxidoreductase was detected that is present in the cytosol to at least 0.4% of the soluble protein. With Cl 2 Ind (2,6-dichlorophenolindophenol) as artificial electron acceptor, the enzyme exhibits oxidizing activity towards glyceraldehyde, glyceraldehyde-3-phosphate, isobutyraldehyde, formaldehyde, acetaldehyde and propionaldehyde. At its pH-optimum (6.7), close to the intracellular pH of Sulfolobus, the glyceraldehyde-oxidizing activity is predominant. The protein has an apparent molecular mass of 177 kDa and consists of three subunits of 80.5 kDa (a), 32 kDa (b) and 19.5 kDa (g). It contains close to one Mo, four Fe, four acid-labile sulphides and four phosphates per protein molecule. Methanol extraction revealed the existence of 1 FAD per molecule and 1 molybdopterin per molecule, which was identified as molybdopterin guanine dinucleotide on the basis of perchloric acid cleavage and thin layer chromatography. EPR-spectra of the aerobically prepared enzyme exhibit the so-called`desulpho-inhibited ' -signal, known from chemically modified forms of molybdenum containing proteins. Anaerobically prepared samples show both, the signals arising from the active molybdenum-cofactor as well as from the two [2Fe-2S]-clusters. According to metal-, cofactor-, and subunit-composition, the enzyme resembles the members of the xanthine oxidase family. Nevertheless, the melting point and long-term thermostability of the protein are outstanding and perfectly in tune with the growth temperature of S. acidocaldarius (80 8C). The findings suggest the enzyme to function as a glyceraldehyde oxidoreductase in the course of the nonphosphorylated Entner-Doudoroff pathway and thereby may attribute a new physiological role to this class of enzyme.Keywords: aldehyde oxidoreductase, archaea, glycolysis, molybdenum, Sulfolobus acidocaldarius.Sulfolobus acidocaldarius is an obligately aerobic, extremely thermoacidophilic crenarchaeon growing optimally at 80 8C in acidic environments (pH 2±3) [1]. Its general metabolism [2] and bioenergetics [3±5] have been extensively investigated. Yet, the composition of media as well as growth conditions are mainly empirical and no systematic attempts to elucidate the interactions of essential trace elements with distinct metabolic pathways have ever been made. Recently, [ 13 C]-labelling experiments with cells grown on glucose as sole carbon source have clearly shown that S. acidocaldarius ferments glucose exclusively via the nonphosphorylated Entner±Doudoroff pathway [6]. However, little is known abou...

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“…Notably, however, aldehyde oxidase has not been shown to manifest a “very rapid” type of EPR signal, and preferentially manifests the “rapid Type 2” signal (with coupling to two equivalent protons) rather than the “rapid Type 1” (with coupling to two inequivalent protons) more commonly seen with wild-type enzyme. 182d,206g,h,207 Genes encoding aldehyde oxidases from cow, 208 human, 209 rat, 210 and mouse 211 have all been cloned and shown to share similar intron/exon structures, a reflection of their close evolutionary relationship. In humans, in addition to the single Aox1 gene, 209 there are two pseudogenes that are not expressed and represent vestigial remnants of two of the three additional isoforms seen in mouse.…”

Section: The Xanthine Oxidase Familymentioning

confidence: 99%