Overall and internal dynamics of DNA as monitored by five-atom-tethered spin labels

Abstract: Electron paramagnetic resonance (EPR) spectra of the two-atom-tethered six-membered ring thymidylate spin label (DUMTA) incorporated into duplexes of different sizes were found to display a helix length dependence and a local-order parameter S = 0.32 +/- 0.01 for B-DNA based on the dynamic cylinder model (Keyes, R. S., and A. M. Bobst. 1995. Detection of internal and overall dynamics of a two-atom-tethered spin-labeled DNA. Biochemistry. 34:9265-9276). This sensitivity to size, which reflects global tumbling, … Show more

“…Our high-field results are consistent with previous estimates of local ordering based on low-frequency ESR of dsDNA labeled with a 5-atom flexible tether (14,15). At lower ESR frequencies, it is necessary to account for both the global tumbling of the DNA and the local motion of the label using the sophisticated Slowly Relaxing Local Structure (SRLS) model (16).…”

A Spin-Labeled Abasic DNA Substrate for AP Endonuclease

“…Our high-field results are consistent with previous estimates of local ordering based on low-frequency ESR of dsDNA labeled with a 5-atom flexible tether (14,15). At lower ESR frequencies, it is necessary to account for both the global tumbling of the DNA and the local motion of the label using the sophisticated Slowly Relaxing Local Structure (SRLS) model (16).…”

A Spin-Labeled Abasic DNA Substrate for AP Endonuclease

“…Paramagnetic manganese can substitute for magnesium in some catalytic RNAs [14][15][16][17][18] and a wide variety of spin-labeled nucleotides have been developed. [5,6,[19][20][21][22][23][24] The interactions of paramagnetic lanthanide ions with nucleic acids, directly or indirectly, are also of interest. The substitution of Er(III) for Mg(II) inhibits Dicer, a specialized ribonuclease while the substitution of La(III) for Mg(II) improves the processivity of reverse transcriptase, a DNA polymerase.…”

Structure and dynamics of a DNA-based model system for the study of electron spin–spin interactions

“…Data on B-form DNA duplexes were simulated using a model that characterizes nitroxide motions by two correlation times, τ ‖ and τ ⊥ (Section V.B.2) (25,29,101,109). τ ‖ was found to be tether dependent, was less than 1 ns, and was attributable to nitroxide motion that was independent of base motion (11).…”

“…τ ⊥ was thought to represent motions including twisting and tilting of the individual base, collective bending and twisting of the DNA segment, and global tumbling of DNA (25,29,101,109). Values of τ ⊥ from all double-stranded systems were reported to be in the 1-10 ns range (11,25,29,101,109), leading to the conclusion that there are significant base motions and these motions contribute to the dynamics of the nitroxide. However, questions have been raised as to the degree to which τ ⊥ is influenced by the motion of the tether versus that of the base (see below) (14).…”

“…There has been debate over whether the rigidly coupled nitroxides alter the behavior of the base, and if so, to what degree (11,14,29,101,109). On the other hand, for the flexible nitroxides, questions have been raised regarding whether motions of the flexible linker lead to an overestimation of base dynamics (14).…”

Site-directed Spin Labeling Studies on Nucleic Acid Structure and Dynamics