Real-time monitoring of Ti(IV) metal ion binding of transferrin using a solid-state nanopore

Authors
O'Donohue, MatthewGhimire, Madhav L.Lee, SangyoupKim, Min Jun
Issue Date
2024-01
Publisher
American Institute of Physics
Citation
The Journal of Chemical Physics, v.160, no.4
Abstract
Transferrin, a central player in iron transport, has been recognized not only for its role in binding iron but also for its interaction with other metals, including titanium. This study employs solid-state nanopores to investigate the binding of titanium ions [Ti(IV)] to transferrin in a single-molecule and label-free manner. We demonstrate the novel application of solid-state nanopores for single-molecule discrimination between apo-transferrin (metal-free) and Ti(IV)-transferrin. Despite their similar sizes, Ti(IV)-transferrin exhibits a reduced current drop, attributed to differences in translocation times and filter characteristics. Single-molecule analysis reveals Ti(IV)-transferrin's enhanced stability and faster translocations due to its distinct conformational flexibility compared to apo-transferrin. Furthermore, our study showcases solid-state nanopores as real-time monitors of biochemical reactions, tracking the gradual conversion of apo-transferrin to Ti(IV)-transferrin upon the addition of titanium citrate. This work offers insights into Ti(IV) binding to transferrin, promising applications for single-molecule analysis and expanding our comprehension of metal-protein interactions at the molecular level.
Keywords
CITRATE; SERUM; SPECIATION; COMPLEXES; TRANSPORT; IRON; PROTEIN
ISSN
0021-9606
URI
https://pubs.kist.re.kr/handle/201004/148524
DOI
10.1063/5.0185590
Appears in Collections:
KIST Article > 2024
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