posted on 2016-05-16, 00:00authored byLuda S. Shlyakhtenko, Samrat Dutta, Ming Li, Reuben S. Harris, Yuri L. Lyubchenko
APOBEC3A
(A3A) inhibits the replication of a range of viruses and
transposons and might also play a role in carcinogenesis. It is a
single-domain deaminase enzyme that interacts with single-stranded
DNA (ssDNA) and converts cytidines to uridines within specific trinucleotide
contexts. Although there is abundant information that describes the
potential biological activities of A3A, the interplay between binding
ssDNA and sequence-specific deaminase activity remains controversial.
Using a single-molecule atomic force microscopy spectroscopy approach
developed by Shlyakhtenko et al. [(2015) Sci. Rep. 5, 15648], we determine the stability of A3A in complex with different
ssDNA sequences. We found that the strength of the complex is sequence-dependent,
with more stable complexes formed with deaminase-specific sequences.
A correlation between the deaminase activity of A3A and the complex
strength was identified. The ssDNA binding properties of A3A and those
for A3G are also compared and discussed.