Influence of conjugation and other structural changes on the activity of Cu²⁺ based PNAzymes

We have previously shown that PNA-neocuproine conjugates can act as artificial RNA restriction enzymes. In the present study we have additionally conjugated the PNA with different entities, such as oligoethers, peptides etc. and also constructed systems where the PNA is designed to clamp the target...

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Published in	Organic & biomolecular chemistry Vol. 14; no. 9; pp. 2768 - 2773
Main Authors	Ghidini, A, Murtola, M, Strömberg, R
Format	Journal Article
Language	English
Published	England 07.03.2016
Subjects	Copper - chemistry Copper - metabolism Medicin och hälsovetenskap Organometallic Compounds - chemical synthesis Organometallic Compounds - chemistry Organometallic Compounds - metabolism Peptide Nucleic Acids - chemistry Peptide Nucleic Acids - metabolism Ribonucleases - chemical synthesis Ribonucleases - chemistry Ribonucleases - metabolism RNA - chemistry RNA - metabolism
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Abstract	We have previously shown that PNA-neocuproine conjugates can act as artificial RNA restriction enzymes. In the present study we have additionally conjugated the PNA with different entities, such as oligoethers, peptides etc. and also constructed systems where the PNA is designed to clamp the target RNA forming a triplex. Some conjugations are detrimental for the activity while most are silent which means that conjugation can be done to alter physical properties without losing activity. Conjugation with a single oligoether close to the neocuproine does enhance the rate almost twofold compared to the system without the oligoether. The systems designed to clamp the RNA target by forming a triplex retain the activity if the added oligoT sequence is 5 PNA units or shorter and extends the arsenal of artificial RNA restriction enzymes. Changing the direction of a closing base pair, where the target RNA forms a bulge, from a GC to a CG pair enhances the rate of cleavage somewhat without compromising the selectivity, leading to the so far most efficient artificial nuclease reported.
AbstractList	We have previously shown that PNA-neocuproine conjugates can act as artificial RNA restriction enzymes. In the present study we have additionally conjugated the PNA with different entities, such as oligoethers, peptides etc. and also constructed systems where the PNA is designed to clamp the target RNA forming a triplex. Some conjugations are detrimental for the activity while most are silent which means that conjugation can be done to alter physical properties without losing activity. Conjugation with a single oligoether close to the neocuproine does enhance the rate almost twofold compared to the system without the oligoether. The systems designed to clamp the RNA target by forming a triplex retain the activity if the added oligoT sequence is 5 PNA units or shorter and extends the arsenal of artificial RNA restriction enzymes. Changing the direction of a closing base pair, where the target RNA forms a bulge, from a GC to a CG pair enhances the rate of cleavage somewhat without compromising the selectivity, leading to the so far most efficient artificial nuclease reported.
Author	Murtola, M Ghidini, A Strömberg, R
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Snippet	We have previously shown that PNA-neocuproine conjugates can act as artificial RNA restriction enzymes. In the present study we have additionally conjugated...
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SubjectTerms	Copper - chemistry Copper - metabolism Medicin och hälsovetenskap Organometallic Compounds - chemical synthesis Organometallic Compounds - chemistry Organometallic Compounds - metabolism Peptide Nucleic Acids - chemistry Peptide Nucleic Acids - metabolism Ribonucleases - chemical synthesis Ribonucleases - chemistry Ribonucleases - metabolism RNA - chemistry RNA - metabolism
Title	Influence of conjugation and other structural changes on the activity of Cu²⁺ based PNAzymes
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