Zhuoxin Dong scite author profile

Zhuoxin Dong

4Publications

10Citation Statements Received

60Citation Statements Given

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172

Affiliations

Tohoku University

Publications

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Selective and stable base pairing by alkynylated nucleosides featuring a spatially-separated recognition interface

Okamura

Trinh

Dong

et al. 2022

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Unnatural base pairs (UBPs) which exhibit a selectivity against pairing with canonical nucleobases provide a powerful tool for the development of nucleic acid-based technologies. As an alternative strategy to the conventional UBP designs, which involve utility of different recognition modes at the Watson–Crick interface, we now report that the exclusive base pairing can be achieved through the spatial separation of recognition units. The design concept was demonstrated with the alkynylated purine (NPu, OPu) and pyridazine (NPz, OPz) nucleosides endowed with nucleobase-like 2-aminopyrimidine or 2-pyridone (‘pseudo-nucleobases’) on their major groove side. These alkynylated purines and pyridazines exhibited exclusive and stable pairing properties by the formation of complementary hydrogen bonds between the pseudo-nucleobases in the DNA major groove as revealed by comprehensive Tm measurements, 2D-NMR analyses, and MD simulations. Moreover, the alkynylated purine-pyridazine pairs enabled dramatic stabilization of the DNA duplex upon consecutive incorporation while maintaining a high sequence-specificity. The present study showcases the separation of the recognition interface as a promising strategy for developing new types of UBPs.

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Experimental study on unstable imbibition characteristics of fracturing fluids at high pressures and temperatures in the tight continental reservoir

Xu¹,

Yang²,

Li³

et al. 2023

Geoenergy Science and Engineering

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Synthesis of 6-Alkynylated Purine-Containing DNA via On-Column Sonogashira Coupling and Investigation of Their Base-Pairing Properties

et al. 2023

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Synthetic unnatural base pairs have been proven to be attractive tools for the development of DNA-based biotechnology. Our group has very recently reported on alkynylated purine–pyridazine pairs, which exhibit selective and stable base-pairing via hydrogen bond formation between pseudo-nucleobases in the major groove of duplex DNA. In this study, we attempted to develop an on-column synthesis methodology of oligodeoxynucleotides (ODNs) containing alkynylated purine derivatives to systematically explore the relationship between the structure and the corresponding base-pairing ability. Through Sonogashira coupling of the ethynyl pseudo-nucleobases and CPG-bound ODNs containing 6-iodopurine, we have demonstrated the synthesis of the ODNs containing three NPu derivatives (NPu1, NPu2, NPu3) as well as three OPu derivatives (OPu1, OPu2, OPu3). The base-pairing properties of each alkynylated purine derivative revealed that the structures of pseudo-nucleobases influence the base pair stability and selectivity. Notably, we found that OPu1 bearing 2-pyrimidinone exhibits higher stability to the complementary NPz than the original OPu, thereby demonstrating the potential of the on-column strategy for convenient screening of the alkynylated purine derivatives with superior pairing ability.

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Experimental Study on Imbibition Characteristics of Unstable Fracturing Fluids at High Pressures and Temperatures in the Tight Continental Reservoir

Xu¹,

Yang²,

Li³

et al. 2022

SSRN Journal

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Zhuoxin Dong

Selective and stable base pairing by alkynylated nucleosides featuring a spatially-separated recognition interface

Experimental study on unstable imbibition characteristics of fracturing fluids at high pressures and temperatures in the tight continental reservoir

Synthesis of 6-Alkynylated Purine-Containing DNA via On-Column Sonogashira Coupling and Investigation of Their Base-Pairing Properties

Experimental Study on Imbibition Characteristics of Unstable Fracturing Fluids at High Pressures and Temperatures in the Tight Continental Reservoir

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