Spectroscopic evidence for direct flavin-flavin contact in a bifurcating electron transfer flavoprotein.
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Abstract | :
A remarkable charge transfer (CT) band is described in the bifurcating electron transfer flavoprotein (Bf-ETF) from (ETF). ETF contains two FADs that play contrasting roles in electron bifurcation. The Bf-FAD accepts electrons pairwise from NADH, directs one to a lower-reduction midpoint potential (°) carrier, and the other to the higher-° electron transfer FAD (ET-FAD). Previous work noted that a CT band at 726 nm formed when ET-FAD was reduced and Bf-FAD was oxidized, suggesting that both flavins participate. However, existing crystal structures place them too far apart to interact directly. We present biochemical experiments addressing this conundrum and elucidating the nature of this CT species. We observed that ETF missing either FAD lacked the 726 nm band. Site-directed mutagenesis near either FAD produced altered yields of the CT species, supporting involvement of both flavins. The residue substitutions did not alter the absorption maximum of the signal, ruling out contributions from residue orbitals. Instead, we propose that the residue identities modulate the population of a protein conformation that brings the ET-flavin and Bf-flavin into direct contact, explaining the 726 nm band based on a CT complex of reduced ET-FAD and oxidized Bf-FAD. This is corroborated by persistence of the 726 nm species during gentle protein denaturation and simple density functional theory calculations of flavin dimers. Although such a CT complex has been demonstrated for free flavins, this is the first observation of such, to our knowledge, in an enzyme. Thus, Bf-ETFs may optimize electron transfer efficiency by enabling direct flavin-flavin contact. |
Year of Publication | :
2020
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Journal | :
The Journal of biological chemistry
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Volume | :
295
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Issue | :
36
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Number of Pages | :
12618-12634
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Date Published | :
2020
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ISSN Number | :
0021-9258
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URL | :
https://linkinghub.elsevier.com/retrieve/pii/S0021-9258(17)49978-9
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DOI | :
10.1074/jbc.RA120.013174
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Short Title | :
J Biol Chem
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