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Nucleic Acids Research, Vol 26, Issue 20 4551-4556, Copyright © 1998 by Oxford University Press

ARTICLES

Anomeric inversion (from beta to alpha) in methylphosphonate oligonucleosides enhances their affinity for DNA and RNA

F Debart, A Meyer, JJ Vasseur and B Rayner
Laboratoire de Chimie Bio-organique, CC008, UMR 5625 CNRS-UM II, Universite Montpellier II, Place Eugene Bataillon, 34095 Montpellier Cedex 5, France. debart@univ-montp2.fr

Here we report that the poor binding of methylphosphonate oligodeoxynucleosides (MP-ODNs) to their nucleic acid targets can be improved by additional inversion of the anomeric configuration (from beta to alpha) in the sugar moieties to give a new class of analogs, MP alpha-oligonucleosides. MP alpha-dT12and MP 5' alpha-d(TCTTAACCCACA) 3' were synthesized and their ability to form hybrids with complementary single stranded (ss)DNA and ssRNA, as well as with double stranded (ds)DNA, was evaluated. The thermal stability of hybrids formed with MP alpha-analogs was compared with the affinity of phosphodiester (PO) and phosphorothioate (PS) beta- and alpha-oligomers for their targets. Non- ionic MP alpha-oligonucleosides bound to their complementary DNA and RNA strands more tightly than their homologues with natural beta- anomeric configuration did. With DNA target, MP alpha-oligomers formed duplexes more stable than the corresponding natural PO beta-oligomer did. MP alpha-heteropolymer hybridized to RNA target better than PS beta-oligonucleotide did but the hybrid was less stable (DeltaTm-0.5 degrees C per mod.) than the hybrid formed with the natural PO beta- oligomer. Only MP alpha-dT12 bound to dsDNA target at low salt concentration (0.1 M NaCl).
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