Synthesis of Deoxynucleoside Triphosphates that Include Proline,Urea, or Sulfonamide Groups and Their Polymerase Incorporation into DNA |
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Authors: | Dr Marcel Hollenstein |
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Institution: | Department of Chemistry & Biochemistry, University of Bern, Freiestrasse 3, 3012 Bern (Switzerland), Fax: (+41)?31‐631‐3422 |
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Abstract: | To expand the chemical array available for DNA sequences in the context of in vitro selection, I present herein the synthesis of five nucleoside triphosphate analogues containing side chains capable of organocatalysis. The synthesis involved the coupling of L ‐proline‐containing residues (dUtPTP and dUcPTP), a dipeptide (dUFPTP), a urea derivative (dUBpuTP), and a sulfamide residue (dUBsTP) to a suitably protected common intermediate, followed by triphosphorylation. These modified dNTPs were shown to be excellent substrates for the Vent (exo?) and Pwo DNA polymerases, as well as the Klenow fragment of E. coli DNA polymerase I, although they were only acceptable substrates for the 9°Nm polymerase. All of the modified dNTPs, with the exception of dUBpuTP, were readily incorporated into DNA by the polymerase chain reaction (PCR). Modified oligonucleotides efficiently served as templates for PCR for the regeneration of unmodified DNA. Thermal denaturation experiments showed that these modifications are tolerated in the major groove. Overall, these heavily modified dNTPs are excellent candidates for SELEX. |
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Keywords: | DNA nucleosides oligonucleotides organocatalysis polymerase chain reaction |
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