1969
DOI: 10.1042/bj1140735
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Complex-formation between reduced xanthine oxidase and purine substrates demonstrated by electron paramagnetic resonance

Abstract: The origin of the Rapid molybdenum electron-paramagnetic-resonance signals, which are obtained on reducing xanthine oxidase with purine or with xanthine, and whose parameters were measured by Bray & Vänngård (1969), was studied. It is concluded that these signals represent complexes of reduced enzyme with substrate molecules. Xanthine forms one complex at high concentrations and a different one at low concentrations. Purine forms a complex indistinguishable from the low-concentration xanthine complex. There ar… Show more

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Cited by 51 publications
(23 citation statements)
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“…For the bovine enzyme, reduction with purine gave the Rapid signal from the functional enzyme, as expected ( Figure 2A, trace b), while reduction with Na # S # O % gave the Slow signal from the desulpho-enzyme ( Figure 2A, trace d ; the line shape of this signal is slightly different from the normal one [27] due to the presence of purine [28]). The recombinant enzyme also gave a signal that, though slightly different from that for the bovine enzyme, is clearly of the Slow form (Figure 2A, trace c).…”
Section: Epr Spectra Of the Recombinant Enzymesupporting
confidence: 75%
“…For the bovine enzyme, reduction with purine gave the Rapid signal from the functional enzyme, as expected ( Figure 2A, trace b), while reduction with Na # S # O % gave the Slow signal from the desulpho-enzyme ( Figure 2A, trace d ; the line shape of this signal is slightly different from the normal one [27] due to the presence of purine [28]). The recombinant enzyme also gave a signal that, though slightly different from that for the bovine enzyme, is clearly of the Slow form (Figure 2A, trace c).…”
Section: Epr Spectra Of the Recombinant Enzymesupporting
confidence: 75%
“…In the "Rapid type 2" signal of this enzyme, the Mo-OH splitting grows to 13 G, yielding a 1:2:1 triplet due to two approximately equally strongly coupled protons. As demonstrated in the classic work of Bray and coworkers (33,34), the Mo-OH and Mo-SH protons of the "rapid" signals of xanthine oxidase are solvent-exchangeable, and substitution into D 2 O collapses the hyperfine structure to give a single line for each principal g-value of the signals. 3 The complexity of the EPR signal seen here with CO dehydrogenase notwithstanding, its linewidths (5-6 G) are comparable to those seen for the signals observed with xanthine oxidase and loss of proton splitting even as weak as 3 G would have led to a demonstrable narrowing of the features upon substitution into D 2 O.…”
Section: Table 1 Activation Parameters Of Codh Reduction By Co At Ph mentioning
confidence: 94%
“…g= 1.973 1( a) (cf. Pick & Bray, 1969) had no effect on the activity of the enzyme, showing that no major irreversible change in the structure of the protein is caused by the denaturing agent under the conditions used.…”
Section: Selective Modification Of the Iron-sulphur Centresmentioning
confidence: 93%