AI Article Synopsis
- Electrophysiological studies reveal that photoreceptors utilize two types of light-activated cationic channels, TRP and TRPL, with their specific roles in sensory information transmission still being investigated.
- Research showed that nocturnal photoreceptors rely more on TRPL, unlike diurnal ones that primarily depend on TRP for phototransduction.
- Functional analysis through RNA interference indicated that knocking down TRP resulted in lower light sensitivity and information rate due to high noise, while reduced TRPL also lowered signal amplitudes but maintained a consistent information rate, highlighting their distinctive roles in different lighting conditions.
Article Abstract
Electrophysiological studies in and have found that the receptor current in their microvillar photoreceptors is generated by two light-activated cationic channels, TRP (transient receptor potential) and TRPL (TRP-like), each having distinct properties. However, the relative contribution of the two channel types to sensory information coding by photoreceptors remains unclear. We recently showed that, in contrast to the diurnal in which TRP is the principal phototransduction channel, photoreceptors of the nocturnal strongly depend on TRPL. Here, we perform a functional analysis, using patch-clamp and intracellular recordings, of photoreceptors after RNA interference to knock down TRP (TRPkd) and TRPL (TRPLkd). Several functional properties were changed in both knockdown phenotypes: cell membrane capacitance was reduced 1.7-fold, light sensitivity was greatly reduced, and amplitudes of sustained light-induced currents and voltage responses decreased more than twofold over the entire range of light intensities. The information rate (IR) was tested using a Gaussian white-noise modulated light stimulus and was lower in TRPkd photoreceptors (28 ± 21 bits/s) than in controls (52 ± 13 bits/s) because of high levels of bump noise. In contrast, although signal amplitudes were smaller than in controls, the mean IR of TRPLkd photoreceptors was unchanged at 54 ± 29 bits/s because of proportionally lower noise. We conclude that TRPL channels provide high-gain/high-noise transduction, suitable for vision in dim light, whereas transduction by TRP channels is relatively low-gain/low-noise and allows better information transfer in bright light.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5379922 | PMC |
| http://dx.doi.org/10.1085/jgp.201611737 | DOI Listing |
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