Issue 44, 2013
From the journal:

Chemical Communications

Breaking the conservation of guanine residues in the catalytic loop of 10–23 DNAzyme by position-specific nucleobase modifications for rate enhancement

Yang Liu,ab   Zhiwen Li,bc   Gaofeng Liu,bc   Qi Wang,b   Wei Chen,b   Di Zhang,d   Maosheng Cheng,d   Zhibing Zheng,b   Keliang Liu*b  and  Junlin He*b  

* Corresponding authors

a School of Pharmacological Sciences, Guangxi Medical University, Nanning, China

b Beijing Institute of Pharmacology and Toxicology, Beijing, China
E-mail: Junlin_he@yahoo.com, keliangliu55@126.com
Fax: +86 10 68151656
Tel: +86 10 68151656

c College of Life Science, GuiZhou University, Guiyang, China

d School of Pharmaceutical Engineering, Shenyang Pharmaceutical University, Shenyang, China

Abstract

10–23 DNAzyme has been used as a very good model for exploring the potential of functional nucleic acids. Its 15-mer catalytic core has been demonstrated to be the optimized in vitro selection result. However, with the introduction of protein-like functional groups through 2′-deoxyguanosine analogues, its two highly conserved guanine residues (G2 and G14) can be modified for more efficient 10–23 DNAzyme analogues. This result implies that chemical modifications of functional nucleic acids with well-designed nucleoside analogues of each canonical residue could be used as the first step in the efforts toward more powerful functions of nucleic acids.

Graphical abstract: Breaking the conservation of guanine residues in the catalytic loop of 10–23 DNAzyme by position-specific nucleobase modifications for rate enhancement

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Article information

DOI
https://doi.org/10.1039/C3CC42067A
Article type
Communication
Submitted
21 Mar 2013
Accepted
10 Apr 2013
First published
11 Apr 2013

Chem. Commun., 2013,49, 5037-5039

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Breaking the conservation of guanine residues in the catalytic loop of 10–23 DNAzyme by position-specific nucleobase modifications for rate enhancement

Y. Liu, Z. Li, G. Liu, Q. Wang, W. Chen, D. Zhang, M. Cheng, Z. Zheng, K. Liu and J. He, Chem. Commun., 2013, 49, 5037 DOI: 10.1039/C3CC42067A

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