John Nolte scite author profile

John Nolte

4Publications

134Citation Statements Received

92Citation Statements Given

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123

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Affiliations

Cologne Excellence Cluster on Cellular Stress Responses in Aging Associated Diseases, University of Colorado Boulder, University of Colorado Health

Publications

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The Spectral Sensitivities of Single Cells in the Median Ocellus of Limulus

Nolte

Brown

1969

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The spectral sensitivities of single Limulus median ocellus photoreceptors have been determined from records of receptor potentials obtained using intracellular microelectrodes. One class of receptors, called UV cells (ultraviolet cells), depolarizes to near-UV light and is maximally sensitive at 360 nm; a Dartnall template fits the spectral sensitivity curve. A second class of receptors, called visible cells, depolarizes to visible light; the spectral sensitivity curve is fit by a Dartnall template with km,x at 530 nm. Dark-adapted UV cells are about 2 log units more sensitive than dark-adapted visible cells. UV ceils respond with a small hyperpolarization to visible light and the spectral sensitivity curve for this hyperpolarization peaks at 525-550 nm. Visible cells respond with a small hyperpolarization to UV light, and the spectral sensitivity curve for this response peaks at 350-375 nm. Rarely, a double-peaked (360 and 530 nm) spectral sensitivity curve is obtained; two photopigments are involved, as revealed by chromatic adaptation experiments. Thus there may be a small third class of receptor cells containing two photopigments.

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Central projections of the frontal organ of Rana pipiens, as demonstrated by the anterograde transport of horseradish peroxidase

1980

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The central projections of the frontal organ of Rana pipiens are more widespread, and more similar to those of the epiphysis, than previously realized. Fibers labeled with horseradish peroxidase were traced to the amygdala, the epiphysis, the pretectal region, and several nuclear areas of the mesencephalic and diencephalic central gray. When peroxidase reaction product was carefully distinguished from neuromelanin by means of polarization microscopy, no unequivocally labeled cell bodies off centrifugal fibers could be found.

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Ultraviolet-Induced Sensitivity to Visible Light in Ultraviolet Receptors of Limulus

Nolte

Brown

1972

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In the UV-sensitive photoreceptors of the median ocellus (UV cells), prolonged depolarizing afterpotentials are seen following a bright UV stimulus. These afterpotentials are abolished by long-wavelength light. During a bright UV stimulus, long-wavelength light elicits a sustained negative-going response. These responses to long-wavelength light are called repolarizing responses. The spectral sensitivity curve for the repolarizing responses peaks at 480 nm; it is the only spectral sensitivity curve for a median ocellus electrical response known to peak at 480 nm. The reversal potentials of the repolarizing response and the depolarizing receptor potential are the same, and change in the same way when the external sodium ion concentration is reduced. We propose that the generation of repolarizing responses involves a thermally stable intermediate of the UV-sensitive photopigment of UV cells.

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Electrophysiological Properties of Cells in the Median Ocellus of Limulus

Nolte

Brown

1972

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Two types of photoreceptors are found in the median ocellus of Limulus. One type is maximally sensitive to ultraviolet (UV) light, the other to green light; they are called UV and VIS cells, respectively. Biphasic receptor potentials, consisting of a small initial hyperpolarizing phase and a later slow depolarizing phase, can be recorded from both receptor types. These biphasic responses are elicited in UV cells in response to long-wavelength light, and in VIS cells in response to ultraviolet light. Another type of hyperpolarizing response can be recorded in UV cells: after a bright ultraviolet stimulus, the cell remains depolarized; long-wavelength light rapidly returns the membrane potential to its value preceding ultraviolet illumination (this long-wavelengthinduced potential change is called a "repolarizing response"). Also, a longwavelength stimulus superimposed during a UV stimulus elicits a sustained repolarizing response. A third cell type (arhabdomeric cell) found in the median ocellus generates large action potentials and is maximally sensitive to UV light. Biphasic responses and repolarizing responses also can be recorded from arhabdomeric cells. The retina is divided into groups of cells; both UV cells and VIS cells can occur in the same group. UV cells in the same group are electrically coupled to one another and to an arhabdomeric cell.

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John Nolte

The Spectral Sensitivities of Single Cells in the Median Ocellus of Limulus

Central projections of the frontal organ of Rana pipiens, as demonstrated by the anterograde transport of horseradish peroxidase

Ultraviolet-Induced Sensitivity to Visible Light in Ultraviolet Receptors of Limulus

Electrophysiological Properties of Cells in the Median Ocellus of Limulus

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