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Biological Nanopore Approach for Single‐Molecule Protein Sequencing
December 2020
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Abstract
<p class="first" id="d2845518e90">Proteins are responsible for the occurrence and
treatment of many diseases, and therefore
protein sequencing will revolutionize proteomics and clinical diagnostics. Biological
nanopore approach has proved successful for single-molecule DNA sequencing, which
resolves the identities of 4 natural deoxyribonucleotides based on the current blockages
and duration times of their translocations across the nanopore confinement. However,
open challenges still remain for biological nanopores to sequentially identify each
amino acid (AA) of single proteins due to the inherent complexity of 20 proteinogenic
AAs in charges, volumes, hydrophobicity and structures. Herein, we focus on recent
exciting advances in biological nanopores for single-molecule protein sequencing (SMPS)
from native protein unfolding, control of peptide translocation, AA identification
to applications in disease detection.
</p>