posted on 2022-12-07, 21:05authored byMengya Cao, Lijun Zhang, Haoran Tang, Xia Qiu, Yongxin Li
Solid-state nanopores offer a nanoconfined space for
a single-molecule
sensing strategy. Evaluating the behavior of proteins and protein-related
interactions at the single-molecule level is becoming more and more
important for a better understanding of biological processes and diseases.
In this work, the aptamer-functionalized nanopore was prepared as
the sensing platform for kinetic analysis of the carcinoembryonic
antigen (CEA) with its aptamers, which is an important cancer biomarker.
CEA molecules were captured by the aptamers immobilized on the inner
surface of the nanopore, and there was a complicated interaction between
the CEA molecules and the aptamer, which is the process of association
and dissociation. This could be used to measure the dynamics of aptamer–protein
interactions without labeling. The kinetic analysis could be evaluated
at the single-molecule level to interpret the dissociation constants
of the binding and dissociation processes. Results showed that the
translocation of CEA molecules in a functionalized nanopore had a
deep blockades degree and long duration compared with nanopore modified
with bare gold, which could be used for CEA sensing. This protein
and protein-related interaction we designed provides new insights
for evaluating the binding affinity, which will be beneficial for
protein sensing and immunoassays.