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. 2024 Jan;16(1):122-131.
doi: 10.1038/s41557-023-01328-5. Epub 2023 Sep 14.

DNAzyme-based faithful probing and pulldown to identify candidate biomarkers of low abundance

Qinqin Hu #  1   2 Zongxuan Tong #  1 Ayimukedisi Yalikong #  1 Li-Ping Ge #  1 Qiang Shi  1 Xinyu Du  1 Pu Wang  1 Xi-Yu Liu  1 Wuqiang Zhan  1 Xia Gao  1 Di Sun  1 Tong Fu  1 Dan Ye  1 Chunhai Fan  2   3   4   5 Jie Liu  6 Yun-Shi Zhong  7 Yi-Zhou Jiang  8 Hongzhou Gu  9   10
Affiliations

DNAzyme-based faithful probing and pulldown to identify candidate biomarkers of low abundance

Qinqin Hu et al. Nat Chem. 2024 Jan.

Abstract

Biomarker discovery is essential for the understanding, diagnosis, targeted therapy and prognosis assessment of malignant diseases. However, it remains a huge challenge due to the lack of sensitive methods to identify disease-specific rare molecules. Here we present MORAC, molecular recognition based on affinity and catalysis, which enables the effective identification of candidate biomarkers with low abundance. MORAC relies on a class of DNAzymes, each cleaving a sole RNA linkage embedded in their DNA chain upon specifically sensing a complex system with no prior knowledge of the system's molecular content. We show that signal amplification from catalysis ensures the DNAzymes high sensitivity (for target probing); meanwhile, a simple RNA-to-DNA mutation can shut down their RNA cleavage ability and turn them into a pure affinity tool (for target pulldown). Using MORAC, we identify previously unknown, low-abundance candidate biomarkers with clear clinical value, including apolipoprotein L6 in breast cancer and seryl-tRNA synthetase 1 in polyps preceding colon cancer.

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