Three-state models of furanose pseudorotation

doi:10.1093/nar/9.5.1251

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Nucleic Acids Research, 1981, Vol. 9, No. 5 1251-1262
© 1981

CHEMISTRY

Three-state models of furanose pseudorotation

Wilma K. Olson

Department of Chemistry, Rutgers University New Brunswick, NJ 08903, USA

Received December 15, 1980. A general procedure is described to treat the pseudorotationof the furanose ring in terms of a three-state conformationalequilibrium. In addition to the principal n (C3'-endo) and s(C2'-endo) puckering domains, the unusual e (01'-endo) intermediateis included in the analysis. Each of these three conformationalcategories is represented by a blend of five closely relatedpuckered forms rather than by a single rotational isomeric state.Using this model together with experimentally measured nmr couplingconstants, the puckering populations of various nucleic acidanalogs are estimated. The conventional two-state n/s equilibriais confirmed in ordinary ribose and deoxyribose systems. Thee domain, however, is found to be of major importance in severalchemically modified furanoses including certain pyrimidine deoxynucleosidesdamaged by radiation and various nucleosides and nucleotidesforced by bulky substituents on the base into unusual syn glycosylarrangements. The "free" pseudorotation of these modified systemsis not detected by conventional two-state puckering analyses.

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