Madiha Sultan scite author profile

Madiha Sultan

2Publications

32Citation Statements Received

186Citation Statements Given

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Analytical Engineering (United States)

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Nanopore device-based fingerprinting of RNA oligos and microRNAs enhanced with an Osmium tag

Sultan¹,

Kanavarioti²

2019

Sci Rep

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Protein and solid-state nanopores are used for DNA/RNA sequencing as well as for single molecule analysis. We proposed that selective labeling/tagging may improve base-to-base resolution of nucleic acids via nanopores. We have explored one specific tag, the Osmium tetroxide 2,2′-bipyridine (OsBp), which conjugates to pyrimidines and leaves purines intact. Earlier reports using OsBp-tagged oligodeoxyribonucleotides demonstrated proof-of-principle during unassisted voltage-driven translocation via either alpha-Hemolysin or a solid-state nanopore. Here we extend this work to RNA oligos and a third nanopore by employing the MinION, a commercially available device from Oxford Nanopore Technologies (ONT). Conductance measurements demonstrate that the MinION visibly discriminates oligoriboadenylates with sequence A15PyA15, where Py is an OsBp-tagged pyrimidine. Such resolution rivals traditional chromatography, suggesting that nanopore devices could be exploited for the characterization of RNA oligos and microRNAs enhanced by selective labeling. The data also reveal marked discrimination between a single pyrimidine and two consecutive pyrimidines in OsBp-tagged AnPyAn and AnPyPyAn. This observation leads to the conjecture that the MinION/OsBp platform senses a 2-nucleotide sequence, in contrast to the reported 5-nucleotide sequence with native nucleic acids. Such improvement in sensing, enabled by the presence of OsBp, may enhance base-calling accuracy in enzyme-assisted DNA/RNA sequencing.

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Nanopore device-based fingerprinting of RNA oligos and microRNAs enhanced with an Osmium tag

Sultan

Kanavarioti

2019

Preprint

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Nanopores, both protein and solid-state, are explored as single molecule analytical tools, but using an experimental platform is challenging. Here we show that a commercially available nanopore device, MinION from Oxford Nanopore Technologies (ONT), successfully accomplishes a task challenging for a conventional analytical tool. Specifically the MinION discriminates among 31 nucleotide (nt) long oligoriboadenylates with a single pyrimidine (Py) substitution, when this pyrimidine is tagged/labeled with a bulky group (Osmium tetroxide 2,2’-bipyridine or OsBp). This platform also discriminates between an osmylated Py (Py-OsBp) followed by a purine (Pu) and a Py-OsBp followed by a second Py-OsBp, leading to the conjecture that the bulky tag enables sensing of a two-nucleotide sequence. Two-nucleotide sensing could greatly improve base-calling accuracy in motor enzyme-assisted nanopore sequencing.We attribute the observed discrimination neither to the specific pore protein nor to OsBp, but to the tag’s bulkiness, that leads to markedly slower translocation and “touching” proximity at the pore’s constriction zone, that forces desolvation and reorganization, and enables strong interactions among the nanopore, the tagged pyrimidine, and the adjacent nucleobase. These results constitute proof-of-principle that size-suitable nanopores may be superior to traditional analytical tools, for the characterization of RNA oligos and microRNAs enhanced by selective labelling.

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Madiha Sultan

Nanopore device-based fingerprinting of RNA oligos and microRNAs enhanced with an Osmium tag

Nanopore device-based fingerprinting of RNA oligos and microRNAs enhanced with an Osmium tag

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