Jiwook Shim, Shouvik Banerjee, Hu Qiu, Kirby K. H. Smithe, David Estrada,
Julian Bello, Eric Pop, Klaus Schulten, and Rashid Bashir.
Detection of methylation on dsDNA using nanopores in a MoS2
membrane.
Nanoscale, 9:14836-14845, 2017.
SHIM2017
Methylation at the 5-carbon position of the cytosine nucleotide base in
DNA has been shown to be a
reliable diagnostic biomarker for carcinogenesis. Early detection of
methylation and intervention could
drastically increase the effectiveness of therapy and reduce the cancer
mortality rate. Current methods
for detecting methylation involve bisulfite genomic sequencing, which are
cumbersome and demand a
large sample size of bodily fluids to yield accurate results. Hence, more
efficient and cost effective
methods are desired. Based on our previous work, we present a novel
nanopore-based assay using a
nanopore in a MoS membrane, and the methyl-binding protein (MBP),
MBD1x, to detect methylation on
dsDNA. We show that the dsDNA translocation was effectively slowed
down using an asymmetric concentration
of buffer and explore the possibility of profiling the position of
methylcytosines on the DNA
strands as they translocate through the 2D membrane. Our findings
advance us one step closer towards
the possible use of nanopore sensing technology in medical applications
such as cancer detection.
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