R. K. Shenoy scite author profile

We performed a relaxation-line-shape correlation NMR experiment on muscle, liver, kidney, and spleen tissues of healthy mice and of mouse tumor tissue. In each tissue studied, five spin groups were resolved and characterized by their relaxation parameters. We report a previously uncharacterized semi-solid spin group and discuss briefly the value of this method for the identification of malignant tissues.

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Proton and Deuteron Relaxation Study of Molecular Dynamics in Lysozyme Solutions

Kakule

Węglarz

Shenoy

et al. 2000

Acta Phys. Pol. A

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A nuclear magnetic resonance spin-lattice relaxation dispersion study of the relaxation of several magnetization components in both natural and deuterated lysozyme solutions was undertaken at 20°C. Proton and deuteron resonances were employed. The two-dimensional time evolution of the magnetization and the spin-spin relaxation were analyzed. In addition, an isotopic dilution study was performed at 5 and 30.6 MHz. The results indicate that the water proton spin-lattice relaxation rate which arises from intermolecular relaxation between the water protons and the lysozyme protons represents a relatively strong relaxation mechanism. A model for the dynamics of the water molecules, consistent with the proton and deuteron dispersions as well as with the isotopic dilution results, is presented.

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Proton spin lattice relaxation in ferroelectric ammonium iodate

Shenoy

Ramakrishna

1983

Ferroelectrics

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R. K. Shenoy

Two-dimensional nmr time evolution correlation spectroscopy in wet lysozyme

Proton spin lattice relaxation in lithium ammonium sulphate LiNH₄SO₄

Improved Characterization of Healthy and Malignant Tissue by NMR Line-Shape Relaxation Correlations

Proton and Deuteron Relaxation Study of Molecular Dynamics in Lysozyme Solutions

Proton spin lattice relaxation in ferroelectric ammonium iodate

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R. K. Shenoy

Two-dimensional nmr time evolution correlation spectroscopy in wet lysozyme

Proton spin lattice relaxation in lithium ammonium sulphate LiNH4SO4

Improved Characterization of Healthy and Malignant Tissue by NMR Line-Shape Relaxation Correlations

Proton and Deuteron Relaxation Study of Molecular Dynamics in Lysozyme Solutions

Proton spin lattice relaxation in ferroelectric ammonium iodate

Contact Info

Product

Resources

About

Proton spin lattice relaxation in lithium ammonium sulphate LiNH₄SO₄