Properties of xanthine dehydrogenase variants from rosy mutant strains of Drosophila melanogaster and their relevance to the enzyme's structure and mechanism

被引:23
作者
Doyle, WA
Burke, JF
Chovnick, A
Dutton, FL
Whittle, JRS
Bray, RC
机构
[1] UNIV SUSSEX,SCH CHEM & MOL SCI,BRIGHTON BN1 9QJ,E SUSSEX,ENGLAND
[2] UNIV SUSSEX,SCH BIOL SCI,BRIGHTON BN1 9RH,E SUSSEX,ENGLAND
[3] UNIV CONNECTICUT,STORRS,CT 06269
来源
EUROPEAN JOURNAL OF BIOCHEMISTRY | 1996年 / 239卷 / 03期
关键词
xanthine dehydrogenase; rosy mutant strains of Drosophila melanogaster; pterin molybdenum cofactor; molybdenum-center activation by oxidation; NAD(+)/NADH-binding site;
D O I
10.1111/j.1432-1033.1996.0782u.x
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Xanthine dehydrogenase, a molybdenum, iron-sulfur flavoenzyme encoded in the fruit fly Drosophila melanogaster by the rosy gene, has been characterised both from the wild-type and mutant flies. Enzyme assays, using a variety of different oxidising and reducing substrates were supplemented by limited molecular characterisation. Four rosy strains showed no detectable activity in any enzyme assay tried, whereas from four wild-type and three rosy mutant strains, those for the [E89K]. [L127F] and [L157P]xanthine dehydrogenases (in all of which the mutation is in the iron-sulfur domain), the enzyme molecules, although present at different levels, had extremely similar or identical properties. This was confirmed by purification of one wild-type and one mutant enzyme, [E89K]xanthine dehydrogenase. These both had ultraviolet-visible absorption spectra similar to milk xanthin oxidase. Both were found to be quite stable molecules, showing very high catalytic-centre activities and with little tendency to becomes degraded by proteolysis or modified by conversion to oxidase or desulfo forms. In three further rosy strains, giving [G353D]xanthine dehydrogenase and [S357F]xanthine dehydrogenase mutated in the flavin domain, and [G1011E]xanthine dehydrogenase mutated in the molybdenum domain, enzyme activities wee selectively diminished in certain assays. For the G353D and S357F mutant enzymes activities to NAD(+) as oxidising substrate were diminished, to zero for the latter. In addition for [G353D]xanthine dehydrogenase, there was an increase in apparent K-m values both for NAD(+)-binding site. The G1011E mutation has a profound effect on the enzyme. As isolated and as present in crude extracts of the flies, this xanthine dehydrogenase variant lacks activity to xanthine or pterin as reducing, substrate, indicating an impairment of the functioning of its molybdenum centre. However, it retains full activity to NADH with dyes as oxidising substrate. Mild oxidation of the enzyme converts it, apparently irreversibly, to a form showing full activity to xanthine and pterin. The nature of the group that is oxidised is discussed in the light of redox potential data. It is proposed that the process involves oxidation of the pterin of the molybdenum cofactor from the tetrahydro to a dihydro oxidation state. This conclusion is fully consistent with recent information [Romao, M.J., Archer, M., Moura, I., Moura, J.J.G., LeGall, J., Engh, R., Schneider, M., Hof, P. & Huber, R. (1995) Science 270, 1170-1176] from X-ray crystallography on the structure of a closely related enzyme from Desulfovibrio gigas. It is proposed, that apparent irreversibility of the oxidative activating process for [G1011E]xanthine dehydrogenase, is due to conversion of its pterin to the tricyclic derivative detected by these workers. The data thus provide the strongest evidence available, that the oxidation state of the pterin can have a controlling influence on the activity of a molybdenum cofactor enzyme. Implications regarding pterin incorporation into xanthine dehydrogenase and in relation to other molybdenum enzymes are discussed.
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收藏
页码:782 / 795
页数:14
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