Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
RNA or single-stranded DNA aptamers with 2'-F pyrimidines have been pursued to increase resistance to nucleases, and while it seems likely that these and other modifications, including the modification of purines, could be used to optimize additional properties, this has been much less explored because such aptamers are challenging to discover. Using a thermostable
DNA polymerase
, SFM4-3, which was previously evolved to accept nucleotides with 2'-modifications, we now report the selection of 2'-F purine aptamers that bind human
neutrophil elastase
(HNE). Two aptamers were identified, 2fHNE-1 and 2fHNE-2, that bind HNE with reasonable affinity. Interestingly, the 2'-F substituents facilitate the selection of specific interactions with HNE and overcome nonspecific electrostatic interactions that can otherwise dominate. The data demonstrate that inclusion of only a few 2'-F substituents can optimize properties far beyond simple nuclease resistance and that SFM4-3 should prove valuable for the further exploration and production of aptamers with properties optimized for various applications.
...
PMID:Selection of 2'-Fluoro-Modified Aptamers with Optimized Properties. 2821 35
Previously, we evolved a
DNA polymerase
, SFM4-3, for the recognition of substrates modified at their 2' positions with a fluoro,
O
-methyl, or azido substituent. Here we use SFM4-3 to synthesize 2'-azido-modified DNA; we then use the azido group to attach different, large hydrophobic groups via click chemistry. We show that SFM4-3 recognizes the modified templates under standard conditions, producing natural DNA and thereby allowing amplification. To demonstrate the utility of this remarkable property, we use SFM4-3 to select aptamers with large hydrophobic 2' substituents that bind human
neutrophil elastase
or the blood coagulation protein factor IXa. The results indicate that SFM4-3 should facilitate the discovery of aptamers that adopt novel and perhaps more protein-like folds with hydrophobic cores that in turn allow them to access novel activities.
...
PMID:Selection of Aptamers with Large Hydrophobic 2'-Substituents. 3196 67
