Nanoscale structure and dynamics of ABOBEC3G complexes with single-stranded DNA

Luda S. Shlyakhtenko, Alexander Y. Lushnikov, Atsushi Miyagi, Ming Li, Reuben S. Harris, Yuri L. Lyubchenko

Resultado de la investigación: Articlerevisión exhaustiva

42 Citas (Scopus)


The DNA cytosine deaminase APOBEC3G (A3G) is capable of blocking retrovirus replication by editing viral cDNA and impairing reverse transcription. However, the biophysical details of this host-pathogen interaction are unclear. We applied atomic force microscopy (AFM) and hybrid DNA substrates to investigate properties of A3G bound to single-stranded DNA (ssDNA). Hybrid DNA substrates included ssDNA with 5′ or 3′ ends attached to DNA duplexes (tail-DNA) and gap-DNA substrates, in which ssDNA is flanked by two double-stranded fragments. We found that A3G binds with similar efficiency to the 5′ and 3′ substrates, suggesting that ssDNA polarity is not an important factor. Additionally, we observed that A3G binds the single-stranded region of the gap-DNA substrates with the same efficiency as tail-DNA. These results demonstrate that single-stranded DNA ends are not needed for A3G binding. The protein stoichiometry does not depend on the ssDNA substrate type, but the ssDNA length modulates the stoichiometry of A3G in the complex. We applied single-molecule high-speed AFM to directly visualize the dynamics of A3G in the complexes. We were able to visualize A3G sliding and protein association-dissociation events. During sliding, A3G translocated over a 69-nucleotide ssDNA segment in <1 s. Association-dissociation events were more complex, as dimeric A3G could dissociate from the template as a whole or undergo a two-step process with monomers capable of sequential dissociation. We conclude that A3G monomers, dimers, and higher-order oligomers can bind ssDNA substrates in a manner independent of strand polarity and availability of free ssDNA ends.

Idioma originalEnglish (US)
Páginas (desde-hasta)6432-6440
Número de páginas9
EstadoPublished - ago. 14 2012
Publicado de forma externa

ASJC Scopus subject areas

  • Biochemistry


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