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Proton and deuteron relaxation of muscle water over wide ranges of resonance frequencies.

机译：质子和氘核在宽泛的共振频率范围内使肌肉水松弛。

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摘要

The spin-lattice relaxation time (T1) of water protons in mouse muscle was studied from 10(4) to 10(8) Hz at several temperatures, and the deuteron T1 of muscle water was studied from 2.0 X 10(3) to 1.54 X 10(7) Hz at several temperatures. Proton T1's of muscle and brain water with different D2O contents were measured at 25 degrees C and 35 MHz. From the results of variable frequency and temperature measurements and the data of isotope substitution, it is concluded that the major relaxation mechanism for the protons in muscle water is the intermolecular dipolar interaction between the protons of the macromolecules and the protons of the water molecules in the hydration layer. It is also suggested that the relaxation of deuterons can be accounted for a very small fraction of water molecules directly hydrogen-bonded to the macromolecules.

机译：在几个温度下研究了小鼠肌肉中水质子的自旋晶格弛豫时间（T1）从10（4）到10（8）Hz，研究了肌肉水的氘核T1从2.0 X 10（3）到1.54在多个温度下为X 10（7）Hz。在25摄氏度和35 MHz下测量了具有不同D2O含量的肌肉和大脑水的质子T1。从可变频率和温度测量的结果以及同位素取代的数据，可以得出结论，肌肉水中质子的主要弛豫机制是大分子质子与水分子中质子之间的分子间偶极相互作用。水化层。还建议，氘核的弛豫可以解释为非常小部分的氢分子直接氢键结合到大分子上。

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期刊名称 Biophysical Journal
作者
B M Fung;
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作者单位

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年(卷),期 1977(18),2
年度 1977
页码 235–239
总页数 5
原文格式 PDF
正文语种
中图分类生物物理学;
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1. Water Confinement in Faujasite Cages: A Deuteron NMR Investigation in a Wide Temperature Range. 2. Spectra and Relaxation at High Temperature [J] . A. M. Szymocha, Z. T. Lalowicz, A. Birczyn?ski, The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2014,第29期

机译：八面沸石笼中的水禁制：在较宽温度范围内的氘核NMR研究。 2.高温下的光谱和弛豫
2. Relaxation dynamics and transformation kinetics of deeply supercooled water: Temperature, pressure, doping, and proton/deuteron isotope effects [J] . Lemke Sonja, Handle Philip H., Plaga Lucie J., The Journal of Chemical Physics . 2017,第3期

机译：深度过冷水的放松动力学和转化动力学：温度，压力，掺杂和质子/氘代同位素效应
3. Nuclear magnetic resonance study of sea-water freezing mechanisms: 2. temperature dependence of relaxation time of protons in sea-ice brine [J] . Melnichenko N.A. Journal of Glaciology . 2013,第216期

机译：海水冻结机制的核磁共振研究：2.海冰盐水中质子弛豫时间的温度依赖性
4. Characterization of protons and deuterons from intense 35 fs laser heated water droplet plasma [C] . Sargis Ter-Avetisyan, Mathias Schnurer, Stephan Busch, International Quantum Electronics Conference . 2004

机译：来自激烈的35 FS激光加热水滴等离子体质子和氘核的特征
5. STUDY OF THE NITROGEN-14(PROTON,2 PROTON) CARBON-13 QUASI-ELASTIC NITROGEN-14(PROTON,PROTON DEUTERON) CARBON-12 QUASI-ELASTIC, AND NITROGEN-14(PROTON,PROTON DEUTERON) CARBON-12 SEQUENTIAL DECAY REACTIONS AT 46 MEV [D] . WELCH, LESTER CLINT. 1970

机译：氮-14（质子，2质子）碳-13准氮-14（质子，质子氘代）碳-12碳-13（质子，质子氘代）碳-13的碳-13（质子，质子氘代）碳-13 在46 Mev.
6. Study of anisotropy in nuclear magnetic resonance relaxation times of water protons in skeletal muscle. [O] . S R Kasturi, D C Chang, C F Hazlewood 1980

机译：骨骼肌中水质子核磁共振弛豫时间的各向异性研究。
7. Proton and deuteron relaxation of muscle water over wide ranges of resonance frequencies. [O] . Fung, B M 1977

机译：质子和氘核在宽泛的共振频率范围内使肌肉水松弛。
8. NMR (Nuclear Magnetic Resonance) Relaxation Times of Water Protons in Normal Tissues and Cancer Cells: The Role of Paramagnetic Ions [R] . Ling, G. N. 1983

机译：正常组织和癌细胞中水质子的核磁共振（核磁共振）弛豫时间：顺磁性离子的作用

Proton and deuteron relaxation of muscle water over wide ranges of resonance frequencies.

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