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2 extracts of labeled maize root tips, 13C-1H heteronuclear single quantum coherence and heteronuclear
5 nation of heteronuclear NMR methods, such as heteronuclear single quantum coherence, HNCA, and HNCO,
7 INEPT), correlation spectroscopy (COSY), and heteronuclear single quantum coherence (HSQC) are also d
8 ches have been proposed utilizing (1)H-(15)N heteronuclear single quantum coherence (HSQC) as well as
9 apes of NH3 signals in a conventional 1H-15N heteronuclear single quantum coherence (HSQC) correlatio
10 oton-nitrogen correlations measured with the heteronuclear single quantum coherence (HSQC) experiment
12 s-[Pt(15NH3)2Cl2]1, are studied using 1H-15N heteronuclear single quantum coherence (HSQC) NMR and in
14 erial completely and gave high-resolution 2D heteronuclear single quantum coherence (HSQC) NMR spectr
15 ects (KIEs) by (1)H-detected 2D [(13)C,(1)H]-heteronuclear single quantum coherence (HSQC) NMR spectr
16 properties are examined in some detail using heteronuclear single quantum coherence (HSQC) NMR spectr
19 erived from paramagnetic broadening of (15)N heteronuclear single quantum coherence (HSQC) resonances
26 of salt and followed by real-time 2D 1H-15N heteronuclear single quantum coherence (HSQC) spectrosco
28 ive K296R kinase domain, and performed (15)N-heteronuclear single quantum coherence (HSQC) titrations
30 at straw, respectively, and characterized by heteronuclear single quantum coherence (HSQC), nuclear m
31 cyl-chain soluble PI(4,5)P(2) analogue using heteronuclear single quantum coherence (HSQC)-based NMR
32 cluster were fully elucidated by (13)C-(1)H heteronuclear single-quantum coherence (HSQC) in conjunc
33 cting a series of two-dimensional (1)H-(15)N heteronuclear single-quantum coherence (HSQC) NMR spectr
35 r dichroism (CD) spectroscopy and (1)H-(15)N heteronuclear single-quantum coherence (HSQC) nuclear ma
36 been reassigned as a two-dimensional 15N-1H heteronuclear single-quantum coherence (HSQC) spectrum a
38 lations (correlation spectroscopy, COSY, and heteronuclear single quantum coherence, HSQC) nuclear ma
40 ddition of H12 to either protein, (15)N/(1)H heteronuclear single quantum coherence NMR data demonstr
45 n agonist-bound conformation, as measured by heteronuclear single quantum coherence NMR, and lead to
48 D with Ca(2+), monitored by (15)N-(1)H HSQC (heteronuclear single quantum coherence) NMR, showed that
49 crystallized or analyzed by (15)N-(1)H HSQC (heteronuclear single-quantum coherence) NMR (nuclear mag
51 ensional (1)H and two-dimensional (1)H/(13)C heteronuclear single quantum coherence nuclear magnetic
53 ding, the kinetics of trypsin digestion, and heteronuclear single-quantum coherence nuclear magnetic
54 The enzyme complexes were observed by 15N-heteronuclear single-quantum coherence nuclear magnetic
55 substituents and can be readily assigned by heteronuclear single quantum coherence-nuclear magnetic
56 evidenced by multiple two-dimensional (15)N heteronuclear single-quantum coherence peaks for certain
57 intermediate was undetectable in a series of heteronuclear single quantum coherences, revealing the d
58 l dispersed in nuclear Overhauser effect and heteronuclear single quantum coherence spectra as measur
64 al shift perturbation analysis by (1)H-(15)N heteronuclear single quantum coherence spectra reveals d
65 nd hydrogen-deuterium exchange (using 1H-15N heteronuclear single quantum coherence spectra) reveal t
69 F structure using nuclear magnetic resonance heteronuclear single-quantum coherence spectra of these
71 l (2D) NMR spectra, namely, (13)C-(1)H HSQC (heteronuclear single quantum coherence spectroscopy), (1
74 gnals observed in the two-dimensional 1H-15N heteronuclear single quantum coherence spectrum of unifo
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