Sugar-to-base correlation in nucleic acids with a 5D APSY-HCNCH or two 3D APSY-HCN experiments |
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Authors: | Barbara Kr?henbühl Daniela Hofmann Christophe Maris Gerhard Wider |
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Institution: | (1) Institute of Molecular Biology and Biophysics, ETH Zurich, 8093 Zurich, Switzerland; |
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Abstract: | A five-dimensional (5D) APSY (automated projection spectroscopy) HCNCH experiment is presented, which allows unambiguous correlation
of sugar to base nuclei in nucleic acids. The pulse sequence uses multiple quantum (MQ) evolution which enables long constant-time
evolution periods in all dimensions, an improvement that can also benefit non-APSY applications. Applied with an RNA with
23 nucleotides the 5D APSY-HCNCH experiment produced a complete and highly precise 5D chemical shift list within 1.5 h. Alternatively,
and for molecules where the out-and-stay 5D experiment sensitivity is not sufficient, a set of out-and-back 3D APSY-HCN experiments is proposed: an intra-base (3D APSY-b-HCN) experiment in an MQ or in a TROSY version, and an MQ sugar-to-base
(3D APSY-s-HCN) experiment. The two 3D peak lists require subsequent matching via the N1/9 chemical shift values to one 5D
peak list. Optimization of the 3D APSY experiments for maximal precision in the N1/9 dimension allowed matching of all 15N chemical shift values contained in both 3D peak lists. The precise 5D chemical shift correlation lists resulting from the
5D experiment or a pair of 3D experiments also provide a valuable basis for subsequent connection to chemical shifts derived
with other experiments. |
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