Toward single-molecule protein sequencing using nanopores

Chunzhe Lu; Andrea Bonini; Jakob H Viel; Giovanni Maglia

doi:10.1038/s41587-025-02587-y

Toward single-molecule protein sequencing using nanopores

Chunzhe Lu, Andrea Bonini, Jakob H Viel, Giovanni Maglia^*

^*Corresponding author voor dit werk

Chemical Biology 1

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Over the past three decades, biological nanopore sequencing has grown from a research curiosity to a mature technology to sequence nucleic acids at the single-molecule level. Now, recent achievements suggest that nanopores might be able to sequence proteins soon. In this Perspective, we analyze the different approaches that have been proposed to measure proteins and peptides using nanopores. We predict that, more likely than not, nanopores will be capable of identifying full-length proteins at the single-molecule level and with single-amino acid resolution, paving the way to single-molecule protein sequencing. This would allow several applications in proteomics that are at present challenging, including measuring the heterogeneity of post-translational modifications, quantifying low-abundance proteins and characterizing protein splicing.

Originele taal-2	English
Pagina's (van-tot)	312-322
Aantal pagina's	11
Tijdschrift	Nature Biotechnology
Volume	43
Nummer van het tijdschrift	3
DOI's	https://doi.org/10.1038/s41587-025-02587-y
Status	Published - 17-mrt.-2025

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Toward single-molecule protein sequencing using nanopores
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title = "Toward single-molecule protein sequencing using nanopores",

abstract = "Over the past three decades, biological nanopore sequencing has grown from a research curiosity to a mature technology to sequence nucleic acids at the single-molecule level. Now, recent achievements suggest that nanopores might be able to sequence proteins soon. In this Perspective, we analyze the different approaches that have been proposed to measure proteins and peptides using nanopores. We predict that, more likely than not, nanopores will be capable of identifying full-length proteins at the single-molecule level and with single-amino acid resolution, paving the way to single-molecule protein sequencing. This would allow several applications in proteomics that are at present challenging, including measuring the heterogeneity of post-translational modifications, quantifying low-abundance proteins and characterizing protein splicing.",

keywords = "Nanopores, Proteins/chemistry, Sequence Analysis, Protein/methods, Nanopore Sequencing/methods, Proteomics/methods, Humans, Single Molecule Imaging/methods",

author = "Chunzhe Lu and Andrea Bonini and Viel, {Jakob H} and Giovanni Maglia",

note = "{\textcopyright} 2025. Springer Nature America, Inc.",

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doi = "10.1038/s41587-025-02587-y",

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T1 - Toward single-molecule protein sequencing using nanopores

AU - Lu, Chunzhe

AU - Bonini, Andrea

AU - Viel, Jakob H

AU - Maglia, Giovanni

PY - 2025/3/17

Y1 - 2025/3/17

N2 - Over the past three decades, biological nanopore sequencing has grown from a research curiosity to a mature technology to sequence nucleic acids at the single-molecule level. Now, recent achievements suggest that nanopores might be able to sequence proteins soon. In this Perspective, we analyze the different approaches that have been proposed to measure proteins and peptides using nanopores. We predict that, more likely than not, nanopores will be capable of identifying full-length proteins at the single-molecule level and with single-amino acid resolution, paving the way to single-molecule protein sequencing. This would allow several applications in proteomics that are at present challenging, including measuring the heterogeneity of post-translational modifications, quantifying low-abundance proteins and characterizing protein splicing.

AB - Over the past three decades, biological nanopore sequencing has grown from a research curiosity to a mature technology to sequence nucleic acids at the single-molecule level. Now, recent achievements suggest that nanopores might be able to sequence proteins soon. In this Perspective, we analyze the different approaches that have been proposed to measure proteins and peptides using nanopores. We predict that, more likely than not, nanopores will be capable of identifying full-length proteins at the single-molecule level and with single-amino acid resolution, paving the way to single-molecule protein sequencing. This would allow several applications in proteomics that are at present challenging, including measuring the heterogeneity of post-translational modifications, quantifying low-abundance proteins and characterizing protein splicing.

KW - Nanopores

KW - Proteins/chemistry

KW - Sequence Analysis, Protein/methods

KW - Nanopore Sequencing/methods

KW - Proteomics/methods

KW - Humans

KW - Single Molecule Imaging/methods

U2 - 10.1038/s41587-025-02587-y

DO - 10.1038/s41587-025-02587-y

M3 - Review article

C2 - 40097683

SN - 1087-0156

VL - 43

SP - 312

EP - 322

JO - Nature Biotechnology

JF - Nature Biotechnology

IS - 3

ER -

Toward single-molecule protein sequencing using nanopores

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