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1 lized T4 using (15)N{(31)P} and (31)P{(15)N} rotational-echo double resonance.
2 polarization, double cross-polarization, and rotational-echo double resonance.
3  Cross-polarization magic-angle spinning and rotational-echo double resonance 13C and 15N NMR experim
4                                     However, rotational-echo double-resonance 13C NMR (with 19F depha
5 ar distances from NMR recoupling techniques, rotational echo double resonance, and rotational resonan
6                      A combination of REDOR, rotational-echo double-resonance, and conventional solid
7 ization magic angle spinning (CPMAS) NMR, CP rotational-echo double resonance (CP-REDOR) NMR, and het
8                                       Double rotational-echo double resonance (double REDOR) has been
9                                       Double rotational-echo double resonance (double REDOR) NMR was
10 cts between CAP-Gly and tubulin using double rotational echo double resonance (dREDOR)-filtered exper
11                   In particular, (13)C-(15)N rotational echo double-resonance experiments in multilam
12 using solid-state nuclear magnetic resonance rotational-echo double-resonance experiments.
13 gment were measured using 13C-15N and 13C-1H rotational-echo double-resonance experiments.
14                                              Rotational-echo double-resonance measurements demonstrat
15                                        13C2H rotational echo double resonance NMR has been used to pr
16 cells of S. aureus has been determined using rotational-echo double resonance NMR by measuring intern
17                (13)C{(15)N} and (15)N{(13)C} rotational-echo double resonance NMR measurements determ
18                                   (13)C-(2)H rotational-echo double-resonance NMR experiments of (13)
19 (15)N[(19)F], (31)P[(15)N], and (31)P[(19)F] rotational-echo double-resonance NMR has been used to ch
20                                              Rotational-echo double-resonance NMR has been used to de
21                  13C[(15)N] and (13)C[(19)F] rotational-echo double-resonance NMR have been used to c
22                     Additional heteronuclear rotational-echo double-resonance NMR measurements confir
23 teronuclear correlation and 1D (29)Si{(13)C} rotational-echo double-resonance NMR measurements establ
24 tisfying distance restraints from (13)C-(2)H rotational-echo double-resonance NMR show marked differe
25                              A (19)F, (13)C- rotational-echo double-resonance NMR strategy was used t
26                                              Rotational-echo double-resonance NMR was used to charact
27 cell walls using stable-isotope labeling and rotational-echo double-resonance NMR.
28 vely 13C,15N-labeled fibril samples by using rotational-echo double-resonance NMR.
29 d to the 31P in S3P and Glp were measured by rotational-echo double-resonance NMR.
30                               Interestingly, Rotational Echo DOuble Resonance (REDOR) difference spec
31                        Finally, (11)B{(31)P} rotational echo double resonance (REDOR) experiments sho
32                                 By contrast, rotational echo double resonance (REDOR) NMR experiments
33 gically introduced isotopic labels using the rotational echo double resonance (REDOR) NMR method.
34                                              Rotational echo double resonance (REDOR) NMR spectroscop
35                                       17O-1H rotational echo double resonance (REDOR) NMR was applied
36 ofrequency-driven recoupling (fpRFDR-CT) and rotational echo double resonance (REDOR) solid-state NMR
37                           Using (13)C{(15)N} Rotational Echo DOuble Resonance (REDOR), the structure
38 )C multiple-quantum (MQ) NMR and (13)C/(15)N rotational echo double-resonance (REDOR) measurements in
39 r using solid-state rotational resonance and rotational echo double-resonance (REDOR) NMR methods.
40                                              Rotational-echo double resonance (REDOR) NMR provided in
41 olar recovery at the magic angle (DRAMA) and rotational-echo double resonance (REDOR) to determine in
42 onstrate that the solid-state NMR technique, rotational-echo double resonance (REDOR), can be used to
43                                              Rotational-echo double-resonance (REDOR) (13)C[(31)P] an
44                                              Rotational-echo double-resonance (REDOR) 13C NMR spectra
45                             The (13)C{(19)F} rotational-echo double-resonance (REDOR) dephasing for t
46 n (13)C-(19)F dipolar coupling measured in a rotational-echo double-resonance (REDOR) experiment perf
47 is is supported by results from (13)C{(19)F} rotational-echo double-resonance (REDOR) experiments on
48                                              Rotational-echo double-resonance (REDOR) experiments on
49  employed a combination of both (15)N{(13)C} rotational-echo double-resonance (REDOR) NMR and (13)C{(
50                               CPMAS-echo and rotational-echo double-resonance (REDOR) NMR experiments
51 tion (19)F NMR, and solid state (31)P[(19)F] rotational-echo double-resonance (REDOR) NMR measurement
52                                  Solid state rotational-echo double-resonance (REDOR) NMR was used to
53 e cell-wall peptidoglycan were determined by rotational-echo double-resonance (REDOR) NMR.
54                                          The rotational-echo double-resonance (REDOR) pulse sequence
55           We have used a frequency-selective rotational-echo double-resonance (REDOR) solid-state NMR
56                     Since those authors used rotational-echo double-resonance (REDOR) solid-state NMR
57         The distances are measured using the rotational-echo double-resonance (REDOR) technique under
58                                              Rotational-echo double resonance solid-state (31)P[(19)F
59  content, while an analysis of (31)P{(1)H} C rotational echo double resonance spectra permitted a dyn

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