Translocation of double-stranded DNA through membrane-adapted phi29 motor protein nanopores

Biological pores have been used to study the transport of DNA and other molecules, but most pores have channels that allow only the movement of small molecules and single-stranded DNA and RNA. The bacteriophage phi29 DNA-packaging motor, which allows double-stranded DNA to enter the virus during mat...

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Veröffentlicht in:Nature nanotechnology 2009-11, Vol.4 (11), p.765-772
Hauptverfasser: Guo, Peixuan, Wendell, David, Jing, Peng, Geng, Jia, Subramaniam, Varuni, Lee, Tae Jin, Montemagno, Carlo
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Sprache:eng
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Zusammenfassung:Biological pores have been used to study the transport of DNA and other molecules, but most pores have channels that allow only the movement of small molecules and single-stranded DNA and RNA. The bacteriophage phi29 DNA-packaging motor, which allows double-stranded DNA to enter the virus during maturation and exit during an infection, contains a connector protein with a channel that is between 3.6 and 6 nm wide. Here we show that a modified version of this connector protein, when reconstituted into liposomes and inserted into planar lipid bilayers, allows the translocation of double-stranded DNA. The measured conductance of a single connector channel was 4.8 nS in 1 M KCl. This engineered and membrane-adapted phage connector is expected to have applications in microelectromechanical sensing, microreactors, gene delivery, drug loading and DNA sequencing. Proteins isolated from a specific type of virus have channels that are wide enough to allow double-stranded DNA to pass through, offering a new conductive biological pore for various applications including DNA sequencing.
ISSN:1748-3387
1748-3395
DOI:10.1038/nnano.2009.259