Ionic contrast across a lipid membrane for Debye length extension: towards an ultimate bioelectronic transducer

Authors
Lee, Dong geunJung, W.H.Lee, S.Yu, Eui SangLee, Taik jinKIM, JAE HUNHyun, Seok SongLEE, KWAN HYILee, SeokHan, S.-K.Choi, M.C.Ahn, D.J.Ryu, Yong SangKim, Chulki
Issue Date
2021-06
Publisher
Nature Publishing Group
Citation
Nature Communications, v.12, no.1
Abstract
Despite technological advances in biomolecule detections, evaluation of molecular interactions via potentiometric devices under ion-enriched solutions has remained a long-standing problem. To avoid severe performance degradation of bioelectronics by ionic screening effects, we cover probe surfaces of field effect transistors with a single film of the supported lipid bilayer, and realize respectable potentiometric signals from receptor?ligand bindings irrespective of ionic strength of bulky solutions by placing an ion-free water layer underneath the supported lipid bilayer. High-energy X-ray reflectometry together with the circuit analysis and molecular dynamics simulation discovered biochemical findings that effective electrical signals dominantly originated from the sub-nanoscale conformational change of lipids in the course of receptor?ligand bindings. Beyond thorough analysis on the underlying mechanism at the molecular level, the proposed supported lipid bilayer-field effect transistor platform ensures the world-record level of sensitivity in molecular detection with excellent reproducibility regardless of molecular charges and environmental ionic conditions. ? 2021, The Author(s).
Keywords
ELECTRICAL DETECTION; MOLECULAR-DYNAMICS; DNA HYBRIDIZATION; FIELD; SENSORS; AVIDIN; TRANSISTORS; DISEASE; BINDING; bioelectronic transducer; lipid membrane; Debye length; molecular detection
ISSN
2041-1723
URI
https://pubs.kist.re.kr/handle/201004/116956
DOI
10.1038/s41467-021-24122-8
Appears in Collections:
KIST Article > 2021
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