Nanomechanical Study of Enzyme: Coenzyme Complexes: Bipartite Sites in Plastidic Ferredoxin-NADP + Reductase for the Interaction with NADP
Plastidic ferredoxin-NADP reductase (FNR) transfers two electrons from two ferredoxin or flavodoxin molecules to NADP , generating NADPH. The forces holding the FNR:NADP complex were analyzed by dynamic force spectroscopy, using WT FNR and three C-terminal Y303 variants, Y303S, Y303F, and Y303W. FNR...
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Veröffentlicht in: | Antioxidants 2022-03, Vol.11 (3), p.537 |
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Sprache: | eng |
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Zusammenfassung: | Plastidic ferredoxin-NADP
reductase (FNR) transfers two electrons from two ferredoxin or flavodoxin molecules to NADP
, generating NADPH. The forces holding the
FNR:NADP
complex were analyzed by dynamic force spectroscopy, using WT FNR and three C-terminal Y303 variants, Y303S, Y303F, and Y303W. FNR was covalently immobilized on mica and NADP
attached to AFM tips. Force-distance curves were collected for different loading rates and specific unbinding forces were analyzed under the Bell-Evans model to obtain the mechanostability parameters associated with the dissociation processes. The WT FNR:NADP
complex presented a higher mechanical stability than that reported for the complexes with protein partners, corroborating the stronger affinity of FNR for NADP
. The Y303 mutation induced changes in the FNR:NADP
interaction mechanical stability. NADP
dissociated from WT and Y303W in a single event related to the release of the adenine moiety of the coenzyme. However, two events described the Y303S:NADP
dissociation that was also a more durable complex due to the strong binding of the nicotinamide moiety of NADP
to the catalytic site. Finally, Y303F shows intermediate behavior. Therefore, Y303, reported as crucial for achieving catalytically competent active site geometry, also regulates the concerted dissociation of the bipartite nucleotide moieties of the coenzyme. |
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ISSN: | 2076-3921 2076-3921 |
DOI: | 10.3390/antiox11030537 |