AI Article Synopsis
- Biotin synthase contains (2Fe-2S)(2+) clusters under aerobic conditions, which can be converted to (4Fe-4S)(2+,+) through reduction processes.
- In experiments using Mössbauer spectroscopy, a mixture of (2Fe-2S)(2+) and (4Fe-4S)(2+) clusters was observed in the presence of specific iron and sulfur sources, but the cluster composition remained unchanged with a physiological reducing system.
- The introduction of dethiobiotin led to degradation of (2Fe-2S)(2+) while leaving (4Fe-4S)(2+) intact, suggesting that the reduced (4Fe-4S) cluster plays a role in AdoMet cleavage
Article Abstract
Biotin synthase, the enzyme which catalyzes the last step of the biosynthesis of biotin, contains only (2Fe-2S)(2+) clusters when isolated under aerobic conditions. Previous results showed that reduction by dithionite or photoreduced deazaflavin converts the (2Fe-2S)(2+) to (4Fe-4S)(2+,+). However, until now, no detailed investigation concerning the fate of the (2Fe-2S)(2+) during reduction under assay conditions (NADPH, flavodoxin, flavodoxin reductase) has been realized. Here, we show by Mössbauer spectroscopy on a partially purified fraction overexpressing the enzyme that, in the presence of a S(2)(-) source and Fe(2+), there is conversion of the predominant (2Fe-2S)(2+) clusters into a 1:1 mixture of (2Fe-2S)(2+) and (4Fe-4S)(2+). No change in this cluster composition was observed in the presence of the physiological reducing system. When the reaction was allowed to proceed by addition of the substrate dethiobiotin, the (4Fe-4S)(2+) was untouched whereas the (2Fe-2S)(2+) was degraded into a new species. This is consistent with the hypothesis that the reduced (4Fe-4S) cluster is involved in mediating the cleavage of AdoMet and that the (2Fe-2S)(2+) is the sulfur source for biotin.
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| http://dx.doi.org/10.1021/bi034426c | DOI Listing |
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