α,β-D-Constrained Nucleic Acids Are Strong Terminators of Thermostable DNA Polymerases in Polymerase Chain Reaction

(SC5′, RP) α,β-D- Constrained Nucleic Acids (CNA) are dinucleotide building blocks that can feature either B-type torsional angle values or non-canonical values, depending on their 5′C and P absolute stereochemistry. These CNA are modified neither on the nucleobase nor on the sugar structure and therefore represent a new class of nucleotide with specific chemical and structural characteristics. They promote marked bending in a single stranded DNA so as to preorganize it into a loop-like structure, and they have been shown to induce rigidity within oligonucleotides. Following their synthesis, studies performed on CNA have only focused on the constraints that this family of nucleotides introduced into DNA. On the assumption that bending in a DNA template may produce a terminator structure, we investigated whether CNA could be used as a new strong terminator of polymerization in PCR. We therefore assessed the efficiency of CNA as a terminator in PCR, using triethylene glycol phosphate units as a control. Analyses were performed by denaturing gel electrophoresis and several PCR products were further analysed by sequencing. The results showed that the incorporation of only one CNA was always skipped by the polymerases tested. On the other hand, two CNA units always stopped proofreading polymerases, such as Pfu DNA polymerase, as expected for a strong replication terminator. Non-proofreading enzymes, e.g. Taq DNA polymerase, did not recognize this modification as a strong terminator although it was predominantly stopped by this structure. In conclusion, this first functional use of CNA units shows that these modified nucleotides can be used as novel polymerization terminators of proofreading polymerases. Furthermore, our results lead us to propose that CNA and their derivatives could be useful tools for investigating the behaviour of different classes of polymerases

Influence of threose nucleoside units on the catalytic activity of a hammerhead ribozyme

TNA (a-L-threose nucleic acids) is potentially a natural nucleic acid, that might have acted as an evolutionary alternative of RNA. We determined the catalytic activity of hammerhead ribozymes containing a threofuranosyl-modified nucleoside at position U-4 and U-7, and compared these results with those obtained from HNA (hexitol nucleic acids) insertion into the same ribozyme. Our experiments showed that, although the threofuranosyl-modified ribozymes still cleave the substrate strand, cleavage activity is highly decreased. It, therefore, seems that TNA can play a functional role in the RNA world, but only to a limited extent.status: publishe

Evaluation of capillary HPLC/mass spectrometry as an alternative analysis method for gel electrophoresis of oligonucleotides

A method has been developed to monitor the enzymatic incorporation of nucleotides in DNA by electrospray HPLC mass spectrometry. The main advantages of mass spectrometry over electrophoresis are the ability to directly characterize the reaction products and the shorter analysis time.status: publishe

Onderzoek naar de woonfiscaliteit in Vlaanderen. Deel 5: Samenvatting

Onderzoek in opdracht van het Agentschap Wonen-Vlaanderen.OTBArchitecture and The Built Environmen

Nucleotide analogues containing 2-oxa-bicyclo[2.2.1]heptane and L-alpha-threofuranosyl ring systems: Interactions with purine/pyrimidine receptors

status: publishe

Onderzoek naar de woonfiscaliteit in Vlaanderen. Deel 4: Bouwstenen en scenario's

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Onderzoek naar de woonfiscaliteit in Vlaanderen: Voorwoord

Onderzoek in opdracht van het Agentschap Wonen Vlaanderen.OTBArchitecture and The Built Environmen