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A novel non-enzymatic assay for SNP detection in cancer DNA

Ultramer® Oligonucleotides provide effective target enrichment of a BRAF gene fragment

Miotke L, Maity A, et al. (2015) Enzyme-free detection of mutations in cancer DNA using synthetic oligonucleotide probes and fluorescence microscopy. PLoS One 10(8): e0136720.


Single-nucleotide polymorphisms (SNPs) and variants (SNVs) are the leading source of genetic variation in the human genome, as well as in other species. Such DNA alterations, when present in certain genes, are often associated with disease, including cancers. Therefore, their rapid, reliable detection is highly desirable for clinical and translational research. Current SNP/SNV diagnostic techniques rely heavily on enzyme-based technologies, such as PCR and NGS, to achieve the required sensitivity and specificity of detection. This can be problematic, as the DNA polymerases used in these methods vary in their fidelity and increase the risk of introducing amplification bias. In this paper, the authors introduce an approach for rapid, reliable, enzyme-free detection of a melanoma-linked SNP in human DNA.


Miotke and colleagues set out to detect mutation V600E (T→A at gene position 1799) in BRAF, a human gene encoding the intracellular signaling protein B-Raf. Mutations in BRAF disrupt regulation of cell growth and are associated with multiple cancers, particularly melanoma.

They obtained DNA from 2 human cell lines that possessed the desired BRAF mutation, performed restriction digestion of the DNA, and isolated single-stranded BRAF gene fragments using a 120 nt, BRAF-specific, biotinylated Ultramer® Oligonucleotide from IDT. Using controlled-pore glass (CPG) for solid support, the researchers then annealed these fragments to LNA/DNA capture probes complementary to mutated BRAF (mBRAF). The resulting mBRAF:LNA/DNA probe duplexes had increased Tm, allowing them to be isolated and quantified with fluorescence microscopy using EvaGreen® Dye, which emits a signal that is proportional to the amount of dsDNA present in a sample.


The researchers showed that this novel assay could accurately detect SNPs at single-molecule resolution directly from human serum. The technique detected 17% and 67% mutations in the 2 cell lines, and the assay measurements were confirmed by digital PCR. In comparison to previously reported genotyping methods for the BRAF mutation, this assay is exceptionally low in cost and provides quick turnaround time. Importantly, the assay does not require enzymes other than the restriction enzymes used to fragment the DNA samples. Thus, the assay avoids errors that often occur with PCR and high throughput sequencing. Overall, the ability to quickly and effectively detect small DNA alterations using this method suggests it can be used for other clinically-relevant mutations. It might also serve as an important tool in translational research settings.

Product focus: Ultramer® Oligonucleotides

Ultramer Oligonucleotides range from 45 to 200 nt in length and represent the highest fidelity oligonucleotides available, with coupling efficiencies near 99.7%. This unmatched coupling efficiency leads to oligos suitable for demanding applications such as cloning, ddRNAi, and gene construction, and can save researchers considerable time and trouble in these applications through direct synthesis of the entire target fragment. As always at IDT, all Ultramer oligos receive complimentary ESI mass spectrometry quality control.

For ordering information, please visit Ultramer Oligonucleotides.

Additional reading

Review a list of citations to see how other scientists are successfully applying Ultramer® oligos in their research: Selected Ultramer® Oligonucleotide citations.

Author: Nolan Speicher is a scientific writing intern at IDT.

© 2015 Integrated DNA Technologies. All rights reserved. Trademarks contained herein are the property of Integrated DNA Technologies, Inc. or their respective owners. For specific trademark and licensing information, see www.idtdna.com/trademarks.

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