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Nature
|
March 6, 1975
Mitotic delay in the slime mould Physarum polycephalum induced by low intensity 60 and 75 Hz electromagnetic fields
M T Marron, E M Goodman, B Greenbaum
International Review of Cytology
|
January 1, 1995
Effects of electromagnetic fields on molecules and cells
E M Goodman, B Greenebaum, M T Marron
European Journal of Cell Biology
|
June 1, 1982
Magnetic field effects on mitotic cycle length in Physarum
B Greenebaum, E M Goodman, M T Marron
Biochimica Et Biophysica Acta
|
September 3, 1993
Altered protein synthesis in a cell-free system exposed to a sinusoidal magnetic field
E M Goodman, B Greenebaum, M T Marron
Radiation Research
|
June 1, 1976
Effects of estremely low frequency electromagnetic fields on Physarum polycephalum
E M Goodman, B Greenebaum, M T Marron
The Review of Scientific Instruments
|
July 1, 1977
Method for ensuring comparable temperatures in biological experiments using multiple incubators
B Greenebaum, M T Marron, E M Goodman
Radiation Research
|
June 1, 1979
Bioeffects of extremely low-frequency electromagnetic fields. Variation with intensity, waveform, and individual or combined electric and magnetic fields
E M Goodman, B Greenebaum, M T Marron
Bioelectromagnetics
|
January 1, 1994
Magnetic fields after translation in Escherichia coli
E M Goodman, B Greenebaum, M T Marron
Bioelectromagnetics
|
January 1, 1986
Effects of sinusoidal 60-Hz electric and magnetic fields on ATP and oxygen levels in the slime mold, Physarum polycephalum
M T Marron, E M Goodman, B Greenebaum, et al.
FEBS Letters
|
March 28, 1988
Low frequency electric and magnetic fields have different effects on the cell surface
M T Marron, E M Goodman, P T Sharpe, et al.
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of 2
Search research articles
Search
Showing results (1-10 of 12) with videos related to
Sort By:
Page
of 2
Nature
|
March 6, 1975
Mitotic delay in the slime mould Physarum polycephalum induced by low intensity 60 and 75 Hz electromagnetic fields
M T Marron, E M Goodman, B Greenbaum
International Review of Cytology
|
January 1, 1995
Effects of electromagnetic fields on molecules and cells
E M Goodman, B Greenebaum, M T Marron
European Journal of Cell Biology
|
June 1, 1982
Magnetic field effects on mitotic cycle length in Physarum
B Greenebaum, E M Goodman, M T Marron
Biochimica Et Biophysica Acta
|
September 3, 1993
Altered protein synthesis in a cell-free system exposed to a sinusoidal magnetic field
E M Goodman, B Greenebaum, M T Marron
Radiation Research
|
June 1, 1976
Effects of estremely low frequency electromagnetic fields on Physarum polycephalum
E M Goodman, B Greenebaum, M T Marron
The Review of Scientific Instruments
|
July 1, 1977
Method for ensuring comparable temperatures in biological experiments using multiple incubators
B Greenebaum, M T Marron, E M Goodman
Radiation Research
|
June 1, 1979
Bioeffects of extremely low-frequency electromagnetic fields. Variation with intensity, waveform, and individual or combined electric and magnetic fields
E M Goodman, B Greenebaum, M T Marron
Bioelectromagnetics
|
January 1, 1994
Magnetic fields after translation in Escherichia coli
E M Goodman, B Greenebaum, M T Marron
Bioelectromagnetics
|
January 1, 1986
Effects of sinusoidal 60-Hz electric and magnetic fields on ATP and oxygen levels in the slime mold, Physarum polycephalum
M T Marron, E M Goodman, B Greenebaum, et al.
FEBS Letters
|
March 28, 1988
Low frequency electric and magnetic fields have different effects on the cell surface
M T Marron, E M Goodman, P T Sharpe, et al.
Page
of 2