Competition between photoinduced electron transfer and resonance energy transfer in an example of substituted cytochrome c-quantum dot systems

Joanna Grzyb, Jakub Slawski, Rafal Bialek, Gotard Burdzinski, Krzysztof Gibasiewicz, Remigiusz Worch

Research output: Contribution to journalArticlepeer-review

16 Scopus citations

Abstract

Colloidal quantum dots (QDs) are nanoparticles that are able to photoreduce redox proteins by electron transfer (ET). QDs are also able to transfer energy by resonance energy transfer (RET). Here, we address the question of the competition between these two routes of QDs' excitation quenching, using cadmium telluride QDs and cytochrome c (CytC) or its metalsubstituted derivatives. We used both oxidized and reduced versions of native CytC, as well as fluorescent, nonreducible Zn(II)CytC, Sn(II)CytC, and metal-free porphyrin CytC. We found that all of the CytC versions quench QD fluorescence, although the interaction may be described differently in terms of static and dynamic quenching. QDs may be quenchers of fluorescent CytC derivatives, with significant differences in effectiveness depending on QD size. SnCytC and porphyrin CytC increased the rate of Fe(III)CytC photoreduction, and Fe(II)CytC slightly decreased the rate and ZnCytC presence significantly decreased the rate and final level of reduced FeCytC. These might be partially explained by the tendency to form a stable complex between protein and QDs, which promoted RET and collisional quenching. Our findings show that there is a net preference for photoinduced ET over other ways of energy transfer, at least partially, due to a lack of donors, regenerating a hole at QDs and leading to irreversibility of ET events. There may also be a common part of pathways leading to photoinduced ET and RET. The nature of synergistic action observed in some cases allows the hypothesis that RET may be an additional way to power up the ET.

Original languageEnglish
Pages (from-to)3307-3320
Number of pages14
JournalJournal of Physical Chemistry B
Volume125
Issue number13
DOIs
StatePublished - 8 Apr 2021
Externally publishedYes

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