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Cell Potassium by 39K Spin Echo Nuclear Magnetic Resonance

Nature volume 228, pages 7677 (03 October 1970) | Download Citation

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Abstract

ALTHOUGH there is recent evidence1–4 that cell potassium is complexed, it is still generally believed that intercellular K+ is in free solution. Nuclear magnetic resonance (NMR) has already provided direct evidence that another cellular cation (Na+) is complexed5–8,20,21. When the same approach was used to study cell 39K, the first measurements barely detected an NMR signal from saturated aqueous KCl with the same instrumentation which measured Na+ at a concentration of 0.005 M. NMR sensitivity was limited primarily by the magnetic fields available from conventional electromagnets (13,000 gauss). The key to successful NMR measurement of 39K was the opportunity for the use, for a few days, of a superconductive magnet to generate a magnetic field of approximately 50,300 gauss. Besides increased sensitivity resulting from a higher resonant frequency, the superconductive magnet provided additional improvement in signal-to-noise ratio from prolonged averaging made possible by the high stability of the magnetic field. A further improvement in experimental technique was the use of pulsed NMR, which meant that relaxation time could be measured directly, thus eliminating some of the ambiguity inherent in the interpretation of steady state NMR data. A spin-echo NMR spectrometer (model PS60–AW, Nuclear Magnetic Resonance Specialties, Inc.) operating at 107 Hz was used, with a low noise preamplifier, and RC filtering of approximately 50 per cent or less of T2. Before each measurement, the magnetic field was adjusted for NMR resonance using the beat pattern of a saturated solution of K2CO3 (12 M K+). In spite of the improvements in instrumentation, the measurement of K+ in a living system would still not have been possible but for the use of a bacterium (H. halobium) with an extraordinarily high concentration of K+ (4–5 M) (ref. 9 and unpublished results of M. and B. Ginzburg).

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Author information

Affiliations

  1. Biochemistry Division, Aerospace Medical Research Laboratory, US Naval Air Development Center, Warminster, Pennsylvania 18974.

    • FREEMAN W. COPE
  2. Biophysical Laboratory, Department of Medicine, State University of New York in Brooklyn, 450 Clarkson Avenue, Brooklyn, New York 11203.

    • RAYMOND DAMADIAN

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https://doi.org/10.1038/228076a0

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