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Discrimination of Ribonucleoside Mono-, Di-, and Triphosphates Using an Engineered Nanopore

Yuqin Wang, Pingping Fan, Shanyu Zhang, Liying Wang, Xinyue Li, Wendong Jia, Yao Liu, Kefan Wang, Xiaoyu Du, Panke Zhang, Shuo Huang

2022ACS Nano29 citationsDOI

Abstract

Ribonucleotides, which widely exist in all living organisms and are essential to both physiological and pathological processes, can naturally appear as ribonucleoside mono-, di-, and triphosphates. Natural ribonucleotides can also dynamically switch between different phosphorylated forms, posing a great challenge for sensing. A specially engineered nanopore sensor is promising for full discrimination of all canonical ribonucleoside mono-, di-, and triphosphates. However, such a demonstration has never been reported, due to the lack of a suitable nanopore sensor that has a sufficient resolution. In this work, we utilized a phenylboronic acid (PBA) modified Mycobacterium smegmatis porin A (MspA) hetero-octamer for ribonucleotide sensing. Twelve types of ribonucleotides, including mono-, di-, and triphosphates of cytidine (CMP, CDP, CTP), uridine (UMP, UDP, UTP), adenosine (AMP, ADP, ATP), and guanosine (GMP, GDP, GTP) were simultaneously discriminated. A machine-learning algorithm was also developed, which achieved a general accuracy of 99.9% for ribonucleotide sensing. This strategy was also further applied to identify ribonucleotide components in ATP tablets and injections. This sensing strategy provides a direct, accurate, easy, and rapid solution to characterize ribonucleotide components in different phosphorylated forms.

Topics & Concepts

RibonucleotideRibonucleosideUridineNucleosideCytidineNanoporeInosineNucleotideGuanosineChemistryAdenosineBiochemistryNanotechnologyRNAMaterials scienceEnzymeGeneNanopore and Nanochannel Transport StudiesMicrofluidic and Capillary Electrophoresis ApplicationsMembrane-based Ion Separation Techniques
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