Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?

Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?

<p>Cross-relaxation terms in paramagnetic systems that reorient rigidly with slow tumbling times can increase the effective longitudinal relaxation rates of protons of more than 1 order of magnitude. This is evaluated by simulating the time evolution of the nuclear magnetization using a comple...

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Main Authors: G. Bellomo, E. Ravera, V. Calderone, M. Botta, M. Fragai, G. Parigi, C. Luchinat
Format: Article
Language:English
Published: Copernicus Publications 2021-01-01
Series:Magnetic Resonance
Online Access:https://mr.copernicus.org/articles/2/25/2021/mr-2-25-2021.pdf
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spelling doaj-d5344708507d43e498bc51449742d5092021-08-02T22:29:57ZengCopernicus PublicationsMagnetic Resonance2699-00162021-01-012253110.5194/mr-2-25-2021Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?G. Bellomo0G. Bellomo1G. Bellomo2E. Ravera3E. Ravera4V. Calderone5V. Calderone6M. Botta7M. Fragai8M. Fragai9G. Parigi10G. Parigi11C. Luchinat12C. Luchinat13Magnetic Resonance Center (CERM) and Department of Chemistry, University of Florence, via Sacconi 6, Sesto Fiorentino, ItalyConsorzio Interuniversitario Risonanze Magnetiche di Metalloproteine (CIRMMP), Sesto Fiorentino, Italypresent address: Laboratory of Clinical Neurochemistry, Neurology Clinic, University of Perugia, Piazzale Lucio Severi 1/8, 06132 Perugia (PG), ItalyMagnetic Resonance Center (CERM) and Department of Chemistry, University of Florence, via Sacconi 6, Sesto Fiorentino, ItalyConsorzio Interuniversitario Risonanze Magnetiche di Metalloproteine (CIRMMP), Sesto Fiorentino, ItalyMagnetic Resonance Center (CERM) and Department of Chemistry, University of Florence, via Sacconi 6, Sesto Fiorentino, ItalyConsorzio Interuniversitario Risonanze Magnetiche di Metalloproteine (CIRMMP), Sesto Fiorentino, ItalyDipartimento di Scienze e Innovazione Tecnologica, Università del Piemonte Orientale “Amedeo Avogadro”, Viale T. Michel 11, 15121 Alessandria, ItalyMagnetic Resonance Center (CERM) and Department of Chemistry, University of Florence, via Sacconi 6, Sesto Fiorentino, ItalyConsorzio Interuniversitario Risonanze Magnetiche di Metalloproteine (CIRMMP), Sesto Fiorentino, ItalyMagnetic Resonance Center (CERM) and Department of Chemistry, University of Florence, via Sacconi 6, Sesto Fiorentino, ItalyConsorzio Interuniversitario Risonanze Magnetiche di Metalloproteine (CIRMMP), Sesto Fiorentino, ItalyMagnetic Resonance Center (CERM) and Department of Chemistry, University of Florence, via Sacconi 6, Sesto Fiorentino, ItalyConsorzio Interuniversitario Risonanze Magnetiche di Metalloproteine (CIRMMP), Sesto Fiorentino, Italy<p>Cross-relaxation terms in paramagnetic systems that reorient rigidly with slow tumbling times can increase the effective longitudinal relaxation rates of protons of more than 1 order of magnitude. This is evaluated by simulating the time evolution of the nuclear magnetization using a complete relaxation rate-matrix approach. The calculations show that the Solomon dependence of the paramagnetic relaxation rates on the metal–proton distance (as <span class="inline-formula"><i>r</i><sup>−6</sup></span>) can be incorrect for protons farther than 15 Å from the metal and thus can cause sizable errors in <span class="inline-formula"><i>R</i><sub>1</sub></span>-derived distance restraints used, for instance, for protein structure determination. Furthermore, the chemical exchange of these protons with bulk water protons can enhance the relaxation rate of the solvent protons by far more than expected from the paramagnetic Solomon equation. Therefore, it may contribute significantly to the water proton relaxation rates measured at magnetic resonance imaging (MRI) magnetic fields in the presence of slow-rotating nanoparticles containing paramagnetic ions and a large number of exchangeable surface protons.</p>https://mr.copernicus.org/articles/2/25/2021/mr-2-25-2021.pdf
collection DOAJ
language English
format Article
sources DOAJ
author G. Bellomo
G. Bellomo
G. Bellomo
E. Ravera
E. Ravera
V. Calderone
V. Calderone
M. Botta
M. Fragai
M. Fragai
G. Parigi
G. Parigi
C. Luchinat
C. Luchinat
spellingShingle G. Bellomo
G. Bellomo
G. Bellomo
E. Ravera
E. Ravera
V. Calderone
V. Calderone
M. Botta
M. Fragai
M. Fragai
G. Parigi
G. Parigi
C. Luchinat
C. Luchinat
Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?
Magnetic Resonance
author_facet G. Bellomo
G. Bellomo
G. Bellomo
E. Ravera
E. Ravera
V. Calderone
V. Calderone
M. Botta
M. Fragai
M. Fragai
G. Parigi
G. Parigi
C. Luchinat
C. Luchinat
author_sort G. Bellomo
title Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?
title_short Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?
title_full Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?
title_fullStr Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?
title_full_unstemmed Revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?
title_sort revisiting paramagnetic relaxation enhancements in slowly rotating systems: how long is the long range?
publisher Copernicus Publications
series Magnetic Resonance
issn 2699-0016
publishDate 2021-01-01
description <p>Cross-relaxation terms in paramagnetic systems that reorient rigidly with slow tumbling times can increase the effective longitudinal relaxation rates of protons of more than 1 order of magnitude. This is evaluated by simulating the time evolution of the nuclear magnetization using a complete relaxation rate-matrix approach. The calculations show that the Solomon dependence of the paramagnetic relaxation rates on the metal–proton distance (as <span class="inline-formula"><i>r</i><sup>−6</sup></span>) can be incorrect for protons farther than 15 Å from the metal and thus can cause sizable errors in <span class="inline-formula"><i>R</i><sub>1</sub></span>-derived distance restraints used, for instance, for protein structure determination. Furthermore, the chemical exchange of these protons with bulk water protons can enhance the relaxation rate of the solvent protons by far more than expected from the paramagnetic Solomon equation. Therefore, it may contribute significantly to the water proton relaxation rates measured at magnetic resonance imaging (MRI) magnetic fields in the presence of slow-rotating nanoparticles containing paramagnetic ions and a large number of exchangeable surface protons.</p>
url https://mr.copernicus.org/articles/2/25/2021/mr-2-25-2021.pdf
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