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Detecting single-abasic residues within a DNA strand immobilized in a biological nanopore using an integrated CMOS sensor.


ABSTRACT: In this paper, we demonstrate the application of a novel current-measuring sensor (CMS) customized for nanopore applications. The low-noise CMS is fabricated in a 0.35?m CMOS process and is implemented in experiments involving DNA captured in an ?-hemolysin (?-HL) nanopore. Specifically, the CMS is used to build a current amplitude map as a function of varying positions of a single-abasic residue within a homopolymer cytosine single-stranded DNA (ssDNA) that is captured and held in the pore. Each ssDNA is immobilized using a biotin-streptavidin linkage. Five different DNA templates are measured and compared: one all-cytosine ssDNA, and four with a single-abasic residue substitution that resides in or near the ~1.5nm aperture of the ?-HL channel when the strand is immobilized. The CMOS CMS is shown to resolves the ~5Å displacements of the abasic residue within the varying templates. The demonstration represents an advance in application-specific circuitry that is optimized for small-footprint nanopore applications, including genomic sequencing.

SUBMITTER: Kim J 

PROVIDER: S-EPMC3564666 | biostudies-literature | 2013 Feb

REPOSITORIES: biostudies-literature

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Detecting single-abasic residues within a DNA strand immobilized in a biological nanopore using an integrated CMOS sensor.

Kim Jungsuk J   Maitra Raj D RD   Pedrotti Ken K   Dunbar William B WB  

Sensors and actuators. B, Chemical 20130201


In this paper, we demonstrate the application of a novel current-measuring sensor (CMS) customized for nanopore applications. The low-noise CMS is fabricated in a 0.35μm CMOS process and is implemented in experiments involving DNA captured in an α-hemolysin (α-HL) nanopore. Specifically, the CMS is used to build a current amplitude map as a function of varying positions of a single-abasic residue within a homopolymer cytosine single-stranded DNA (ssDNA) that is captured and held in the pore. Eac  ...[more]

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