Modeling the Flexural Rigidity of Rod Photoreceptors

Haeri, Mohammad; Knox, Barry E.; Ahmadi, Aphrodite

doi:10.1016/j.bpj.2012.11.3835

Cited by 14 publications

(15 citation statements)

References 61 publications

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“…Hendrickson, from a histological study of the retinas of adults and newborn babies, predicted that the human foveal cone density increased until around 5–8 years of age 19. An earlier study showed that a reduced number of discs reduced the magnitude of the outflow signal from the photoreceptors proportionately 20. The discs in the OSs of the photoreceptors are constantly being renewed.…”

Section: Discussionmentioning

confidence: 98%

Retinal thickness in children with anisohypermetropic amblyopia

et al. 2015

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Section: Discussionmentioning

confidence: 98%

Retinal thickness in children with anisohypermetropic amblyopia

et al. 2015

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“…They may be useful in the development of quantum computers as well. In addition, in accompany with some other researches on cone (Skaper, 2012) and rod (Haeri et al, 2013) cells may shed light and support progresses on the retina degeneration diseases. However, each proposed experiment should also describe plausible biophysical mechanisms that would explain how the quantum effects examined could affect neural signaling, which is left for future communications.…”

Section: Final Remarksmentioning

confidence: 68%

Quantum Superposition in the Retina: Evidences and Proposals

Khoshbin-e-Khoshnazar¹,

Pizzi²

2014

Neuroquantology

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The retina is a light-sensitive layer structured as an array of millions of individual receptors that act as nano-antennas for photons. Apparently, the retina is one of the best known quantum detectors due to the rod cells that are able to respond to a single photon. It appears that the retina is an excellent photon detector and it can be hypothesized that quantum processing of information occurs within the retina and subsequent processing of information at the level of neural membranes decrease the overall quantum efficiency. In this article we review some evidences of quantum processing in retina and propose some experiments and ideas to detect quantum superposition in the retina. Actually, if the retina may involve quantum process, it is reasonable that the conventional tools of quantum spectroscopy could bring an unambiguous proof of this claim. Indeed, aim of this work is to show some methods to induce and verify the existence of quantum superposition in biological systems, more specifically the rodopsin molecules in the rod cells.

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“…A random phase in the sinusoidal function was selected to represent Rho-mCherry expression unsynchronized among rods in the same retina [5,52]. Since induction may occur at any point in the varying G3 expression cycle, we expect a variety of Rho-mCherry induction response shapes (Figure 8C).…”

Section: Discussionmentioning

confidence: 99%

An Inducible Expression System to Measure Rhodopsin Transport in Transgenic Xenopus Rod Outer Segments

et al. 2013

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We developed an inducible transgene expression system in Xenopus rod photoreceptors. Using a transgene containing mCherry fused to the carboxyl terminus of rhodopsin (Rho-mCherry), we characterized the displacement of rhodopsin (Rho) from the base to the tip of rod outer segment (OS) membranes. Quantitative confocal imaging of live rods showed very tight regulation of Rho-mCherry expression, with undetectable expression in the absence of dexamethasone (Dex) and an average of 16.5 µM of Rho-mCherry peak concentration after induction for several days (equivalent to >150-fold increase). Using repetitive inductions, we found the axial rate of disk displacement to be 1.0 µm/day for tadpoles at 20 °C in a 12 h dark /12 h light lighting cycle. The average distance to peak following Dex addition was 3.2 µm, which is equivalent to ~3 days. Rods treated for longer times showed more variable expression patterns, with most showing a reduction in Rho-mCherry concentration after 3 days. Using a simple model, we find that stochastic variation in transgene expression can account for the shape of the induction response.

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Modeling the Flexural Rigidity of Rod Photoreceptors

Cited by 14 publications

References 61 publications

Retinal thickness in children with anisohypermetropic amblyopia

Retinal thickness in children with anisohypermetropic amblyopia

Quantum Superposition in the Retina: Evidences and Proposals

An Inducible Expression System to Measure Rhodopsin Transport in Transgenic Xenopus Rod Outer Segments

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