Sensitivity of toad rods: Dependence on wave‐length and background illumination.

Fain, Gordon

doi:10.1113/jphysiol.1976.sp011549

Cited by 265 publications

(219 citation statements)

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“…The light-evoked PO2 changes, therefore, are believed to reflect primarily changes in photoreceptor metabolism, and are expected to be rod dominated since the sensitivity was similar to that measured from toad rods (Fain, 1976), The illumination required for a half-maximal response from single toad rods, measured by Fain (1976), was in the upper end of the range of illuminations which produced half-maximal PO2 (and c-wave) responses in this study. Amphibian retinas also contain cones (Liebman and Entine, 1968) which absorb maximally at 575 nm, and the cone population in the toad retina is substantial (Zhang and Straznicky, 1991), but their size and their percentage of total photopigment is small compared to the rods.…”

Section: Light-evoked Po 2 Responsementioning

confidence: 87%

Light-evoked oxygen responses in the isolated toad retina

Haugh-Scheidt

Griff

Linsenmeier

1995

Experimental Eye Research

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Transient changes in retinal oxygen in response to light stimuli were studied to further understand the light-evoked change in oxygen consumption. Double-barreled microelectrodes, which measured oxygen and local voltage simultaneously, were positioned near the photoreceptor inner segments of the toad neural retina-retinal pigment epithelium--choroid preparation. Light-evoked oxygen responses were measured in a normal [Na ÷] solution, and in a test solution with lowered extracellular [Na ÷] to inhibit Na*/K * pumping. Under the normal [Na+] condition, retinal oxygen tension increased in response to light indicating that oxygen utilization had decreased. When the Na ÷ concentration was lowered in the retina, the oxygen tension decreased in response to light, indicating an increase in oxygen utilization which was smaller than the Na÷/K ÷ pump effect and therefore masked under normal conditions, The increase in oxygen utilization in lowered [Na ÷] was suppressed by adding 0-7 mM 3-isobutyl-l-methyl-xanthine, a phosphodiesterase inhibitor, suggesting that the response was largely due to hydrolysis and subsequent resynthesis of cyclic GMP. Results of fitting the light-evoked responses to exponential functions suggested that the decrease in oxygen consumption caused by slowing of the photoreceptor Na+/K ÷ ATPase had a time constant between 130 and 180 sec and that the increase in oxygen utilization from increased cyclic GMP synthesis was faster.

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Section: Light-evoked Po 2 Responsementioning

confidence: 87%

Light-evoked oxygen responses in the isolated toad retina

Haugh-Scheidt

Griff

Linsenmeier

1995

Experimental Eye Research

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“…This contrasts with the situation in other sensory receptors, which appear to adapt in a more graded manner during continuous stimulation, exhibiting a less steep decline in sensitivity as the adapting stimulus is increased. For example, toad rod photoreceptors adapt by decreasing their sensitivity inversely with steady light intensity according to Weber's law (Fain, 1976;Baylor et al 1980), while in turtle hair cells adaptation simply displaces the stimulus-response relation to higher stimulus levels without a change in form (Crawford et al 1989). Even more profound were the decreases in sensitivity estimated from the peak spike firing frequency evoked by the test pulse following adaptation to the pre-pulse.…”

Section: Olfactory Receptor Cell Adaptationmentioning

confidence: 99%

Adaptation of the odour‐induced response in frog olfactory receptor cells

Reisert

Matthews

1999

The Journal of Physiology

110

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which has been suggested to reflect progressive inactivation of voltagegated Na¤ channels during the odour-induced depolarisation (Trotier, 1994). While whole-cell patch clamp recordings from olfactory receptor cells have demonstrated that the odourinduced receptor current follows a steep dose-response relation (Firestein et al. 1993), the relationship between the receptor current and action potential firing has hitherto received relatively little attention (Trotier, 1994). The adaptation of the response to a steady stimulus is a common feature of sensory systems (for review see Shapley & Enroth-Cugell, 1984;Torre et al. 1995). Classically, adaptation is often regarded as the effect of steady stimulation on the stimulus-response relation for superimposed brief stimuli. However, previous studies of olfactory adaptation have concentrated instead on the related phenomena of the relaxation in the response to steady stimulation, and the recovery of the odour response after stimulation (

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“…To find the action spectrum of light adaptation, we measured, at several wavelengths, the intensity of a steady adapting light needed to produce a criterion desensitization. (This strategy is similar to that used by Stiles, 1939;Fuortes et al, 1961;and Fain, 1976. ) The details of the procedure for determining the criterion action spectrum of excitation were as follows.…”

Section: Actio~ Spectra Of Excitation and Light Adaptationmentioning

confidence: 99%