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Optimizing anti-gene oligonucleotide 'Zorro-LNA' for improved strand invasion into duplex DNA.

Abstract:
Zorro-LNA (Zorro) is a newly developed, oligonucleotide (ON)-based, Z-shaped construct with the potential of specific binding to each strand of duplex DNA. The first-generation Zorros are formed by two hybridized LNA/DNA mixmers (2-ON Zorros) and was hypothesized to strand invade. We have now established a method, which conclusively demonstrates that an LNA ON can strand invade into duplex DNA. To make Zorros smaller in size and easier to design, we synthesized 3'-5'-5'-3' single-stranded Zorro-LNA (ssZorro) by using both 3'- and 5'-phosphoramidites. With ssZorro, a significantly greater extent and rate of double-strand invasion (DSI) was obtained than with conventional 2-ON Zorros. Introducing hydrophilic PEG-linkers connecting the two strands did not significantly change the rate or extent of DSI as compared to ssZorro with a nucleotide-based linker, while the longest alkyl-chain linker tested (36 carbons) resulted in a very slow DSI. The shortest alkyl-chain linker (3 carbons) did not reduce the extent of DSI of ssZorro, but significantly decreased the DSI rate. Collectively, ssZorro is smaller in size, easier to design and more efficient than conventional 2-ON Zorro in inducing DSI. Analysis of the chemical composition of the linker suggests that it could be of importance for future therapeutic considerations.

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Publisher copy:
10.1093/nar/gkq835

Authors


Journal:
Nucleic acids research More from this journal
Volume:
39
Issue:
3
Pages:
1142-1154
Publication date:
2011-02-01
DOI:
EISSN:
1362-4962
ISSN:
0305-1048


Language:
English
Keywords:
Pubs id:
pubs:267398
UUID:
uuid:f5cd0c3c-66df-4997-988d-69e89e1ced56
Local pid:
pubs:267398
Source identifiers:
267398
Deposit date:
2012-12-19
ARK identifier:

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