2015
DOI: 10.1007/s10858-015-9925-8
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Optimized co-solute paramagnetic relaxation enhancement for the rapid NMR analysis of a highly fibrillogenic peptide

Abstract: Co-solute paramagnetic relaxation enhancement (PRE) is an attractive way to speed up data acquisition in NMR spectroscopy by shortening the T 1 relaxation time of the nucleus of interest and thus the necessary recycle delay. Here, we present the rationale to utilize high-spin iron(III) as the optimal transition metal for this purpose and characterize the properties of its neutral chelate form Fe(DO3A) as a suitable PRE agent. Fe(DO3A) effectively reduces the T 1 values across the entire sequence of the intrins… Show more

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Cited by 26 publications
(23 citation statements)
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References 38 publications
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“…It is well established that the addition of inert paramagnetic compounds to an NMR sample enhances the longitudinal relaxation time, T 1 , causing higher signal intensities (Paramagnetic Relaxation Enhancement, PRE) . However, the application of PRE is limited because NMR lines may become substantially broadened . We have developed a concept showing that it is possible profiting from the PRE effect without suffering its downside.…”
Section: Figurementioning
confidence: 99%
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“…It is well established that the addition of inert paramagnetic compounds to an NMR sample enhances the longitudinal relaxation time, T 1 , causing higher signal intensities (Paramagnetic Relaxation Enhancement, PRE) . However, the application of PRE is limited because NMR lines may become substantially broadened . We have developed a concept showing that it is possible profiting from the PRE effect without suffering its downside.…”
Section: Figurementioning
confidence: 99%
“…Here we will follow as omehow alternative approach: We introduce the concept of accelerating the acquisitiono fN MR spectra by selectively manipulating the relaxation rates during the NMR experiment.It is well established that the addition of inert paramagnetic compounds to an NMR sample enhances the longitudinal relaxationt ime, T 1 ,c ausing higher signal intensities (Paramagnetic Relaxation Enhancement, PRE). [11][12][13][14] However,t he application of PRE is limited because NMR lines may become substantially broadened. [11] We have developed ac oncept showingt hat it is possible profiting from the PRE effect withouts uffering its downside.…”
mentioning
confidence: 99%
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“…In this study, we provide a comprehensive kinetic description of surface and solution effects on a proteolytically generated amyloid peptide (C-36) from the C-terminal region of the a1-antitrypsin (a 1 AT) serine protease inhibitor. C-36 is intrinsically disordered in solution (42), and has been found in various bodily fluids, in atherosclerotic plaques, and in alveolar fibrillar deposits (43,44). C-36 is bioactive (43) and is also represented in newly detected C-terminal transcripts of the SERPIN1A gene (45).…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, increased sensitivity offered by 1.0 – 1.2 GHz spectrometers close to the ‘magic TROSY field’, 1a along with sensitivity enhancement from paramagnetic relaxation agents 23 and possibly dynamic nuclear polarization, 24 promise to enable N-H RDC measurement up to τ c ~ 200 ns. For even longer τ c , residual 1 H density can be reduced by adding 50% 2 H 2 O, and cross-relaxation induced polarization transfer (CRIPT) 25 can be employed.…”
mentioning
confidence: 99%