Journal
JOURNAL OF MAGNETIC RESONANCE
Volume 204, Issue 1, Pages 111-117Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jmr.2010.02.013
Keywords
Fast acquisition; Longitudinal relaxation enhancement; Resonance assignment; Band selective excitation; HNN
Funding
- Government of India
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HNN has proven to be an extremely valuable experiment for rapid and unambiguous backbone (H-N, N-15) assignment in (C-13, 15N) labeled proteins. However, low sensitivity of the experiment is often a limiting factor, especially when the transverse relaxation times (T-2) are short. We show here that BEST modification Schanda et al. (2006) [2] increases the sensitivity per unit time by more than a factor of 2.0 and thus substantially increases the speed of data collection; good 3D data can be collected in 8-10 h. Next, we present a simple method for amino-acid type identification based on simple 2D versions of the HNN experiment, labeled here as 2D-(HN)NH. Each of these experiments which produce anchor points for Gly, Ala, Ser/Thr residues, can be recorded in less than an hour. These enable rapid data acquisition, rapid analysis, and consequently rapid assignment of backbone (H-N, N-15) resonances. The 2D-(HN)NH experiment does not involve aliphatic/aromatic protons and hence can be applied to deuterated protein samples as well, which is an additional advantage. The experiments have been demonstrated with human ubiquitin (76 aa) and acetic-acid denatured HIV-1 protease (99 aa), as representatives of folded and unfolded protein systems, respectively. (C) 2010 Elsevier Inc. All rights reserved.
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