2009
DOI: 10.1016/j.cbpa.2009.09.030
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Non-natural nucleic acids for synthetic biology

Abstract: Genetic manipulation is an important facet of synthetic biology but can be complicated by undesired nuclease degradation. Incorporating non-natural nucleic acids into a gene could convey resistance to nucleases and promote expression. The compatibility of non-natural nucleosides with polymerases is reviewed with a focus on results from the past two years. Details are provided about how the different systems could be useful in synthetic biology.

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Cited by 62 publications
(51 citation statements)
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“…The capping significantly increased resistance to exonuclease of a thrombin aptamer: 80% of the intact oligonucleotide was recovered after 2 h of treatment, whereas unmodified aptamer was 80% hydrolyzed in 30 min. Some of the modifications are compatible with the SELEX process, meaning that modified triphosphates are readily introduced by polymerases [13,[19][20][21]. From this point of view the incorporation of 2¢-fluororibonucleotide of pyrimidine residues is most frequently used for SELEX as it results in partly resistant molecules using a standard selection procedure.…”
Section: Chemically Modified Aptamersmentioning
confidence: 99%
“…The capping significantly increased resistance to exonuclease of a thrombin aptamer: 80% of the intact oligonucleotide was recovered after 2 h of treatment, whereas unmodified aptamer was 80% hydrolyzed in 30 min. Some of the modifications are compatible with the SELEX process, meaning that modified triphosphates are readily introduced by polymerases [13,[19][20][21]. From this point of view the incorporation of 2¢-fluororibonucleotide of pyrimidine residues is most frequently used for SELEX as it results in partly resistant molecules using a standard selection procedure.…”
Section: Chemically Modified Aptamersmentioning
confidence: 99%
“…Both of them were screened from modified RNA library involving 2'F-Py nucleotides and to further increase the nucleases resistance, several of the natural purines were replaced by 2'O-Me purines [26,29]. Other modifications of the nucleotides on the ribose can be used to increase the stability of aptamers such as LNA (Locked Nucleic Acid) [30]. A TTA1 derivative was tailored using a small number of LNA, this aptamer exhibited an improved plasma stability together with higher tumour uptake compared to the non-modified TTA1 aptamer [31].…”
Section: Introductionmentioning
confidence: 99%
“…The aqueous phase was concentrated under reduced pressure and the residue was chromatographed on a reverse phase silica gel column using water as eluent to yield 180 mg of 7 (75%); R f ¼ 0.55 (i-PrOH/conc. NH 4 …”
Section: Synthesis Of (6-chloropurine) G Nucleoside (6)mentioning
confidence: 99%
“…[4][5][6] In phosphorothioate analogs of DNA (PS-DNA) one of the non-bridging phosphate oxygen atoms is replaced with a sulfur atom (Fig. 1A).…”
Section: 3mentioning
confidence: 99%