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Vision formation is classically based on projections from retinal ganglion cells (RGC) to the lateral geniculate nucleus (LGN) and the primary visual cortex (V1). Neurons in the mouse V1 are tuned to light stimuli. Although the cellular information of the retina and the LGN has been widely studied, the transcriptome profiles of single light-stimulated neuron in V1 remain unknown. In our study, in vivo calcium imaging and whole-cell electrophysiological patch-clamp recording were utilized to identify 53 individual cells from layer 2/3 of V1 as light-sensitive (LS) or non-light-sensitive (NS) by single-cell light-evoked calcium evaluation and action potential spiking. The contents of each cell after functional tests were aspirated in vivo through a patch-clamp pipette for mRNA sequencing. Moreover, the three-dimensional (3-D) morphological characterizations of the neurons were reconstructed in a live mouse after the whole-cell recordings. Our sequencing results indicated that V1 neurons with a high expression of genes related to transmission regulation, such as Rtn4r and Rgs7, and genes involved in membrane transport, such as Na/K ATPase and NMDA-type glutamatergic receptors, preferentially responded to light stimulation. Furthermore, an antagonist that blocks Rtn4r signals could inactivate the neuronal responses to light stimulation in live mice. In conclusion, our findings of the vivo-seq analysis indicate the key role of the strength of synaptic transmission possesses neurons in V1 of light sensory.
ABSTRACT
Vision formation is classically based on projections from retinal ganglion cells (RGC) to the lateral geniculate nucleus (LGN) and the primary visual cortex (V1). Neurons in the mouse V1 are tuned to light stimuli. Although the cellular information of the retina and the LGN has been widely studied, the transcriptome profiles of single light-stimulated neuron in V1 remain unknown. In our study, in vivo calcium imaging and whole-cell electrophysiological patch-clamp recording were utilized to identify 53 individual cells from layer 2/3 of V1 as light-sensitive (LS) or non-light-sensitive (NS) by single-cell light-evoked calcium evaluation and action potential spiking. The contents of each cell after functional tests were aspirated in vivo through a patch-clamp pipette for mRNA sequencing. Moreover, the three-dimensional (3-D) morphological characterizations of the neurons were reconstructed in a live mouse after the whole-cell recordings. Our sequencing results indicated that V1 neurons with a high expression of genes related to transmission regulation, such as Rtn4r and Rgs7, and genes involved in membrane transport, such as Na/K ATPase and NMDA-type glutamatergic receptors, preferentially responded to light stimulation. Furthermore, an antagonist that blocks Rtn4r signals could inactivate the neuronal responses to light stimulation in live mice. In conclusion, our findings of the vivo-seq analysis indicate the key role of the strength of synaptic transmission possesses neurons in V1 of light sensory.
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@#AIM: To study the effect of acupuncture treatment on intraocular pressure(IOP)control, corrected visual acuity, light sensitivity and visual fields mean defect in patients with glaucoma beside the original treatment. <p>METHODS:Totally 48 cases(62 eyes)with glaucoma whose IOP were under control were randomly divided into two groups, the observation group and control group, from January to October 2016. Patients in control group were treated with the original therapy for 3 courses, while observation group were treated with acupuncture therapy for 3 courses, 12d as one course, beside original therapy. Corrected visual acuity, light sensitivity and visual fields mean defect of the two groups before and after treatment were analyzed. <p>RESULTS: Corrected visual acuity, light sensitivity and visual fields mean defect of control group had no differences between before and after treatment by paired <i>t</i> test(<i>P</i>>0.05), those of observation group were significantly different(<i>P</i><0.05). The three examinations were significantly better of observation group than those of control group after treatment by independent <i>t</i> test(<i>P</i><0.05). The total effective rate of observation group was 74%, which was significantly better than that of control group(32%)(<i>χ</i><sup>2 </sup>= 9.329, <i>P</i> < 0.05). <p>CONCLUSION: For glaucoma patients, whose IOP were under control, acupuncture has some improvement on corrected visual acuity, light sensitivity and visual fields mean defect, and is better than single IOP-control therapy in short term effects, but a long-term effect is needed to be studied.
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Objective To discuss the efficacy of Compound Anisodine Injection combined with Iodized Lecithin Tablets in treatment of central serous chorioretinopathy.Methods Totally 60 patients with CSC were selected,and divided into two groups randomly.The patients in control group (29 cases) were given Iodized Lecithin Tablets.The patients in observation group (31 cases) were given Iodized Lecithin Tablets and Compound Anisodine Injection.The efficacy of Compound Anisodine Injection combined with Iodized Lecithin Tablets in treatment of central serous chorioretinopathy was evaluated by efficacy,visual acuity,light sensitivity,and adverse reaction during treatment.Results After treatment,the effective rates of observation and control groups were 93.5% and 79.3%,and the observation group was significantly higher than control group (P < 0.05).There were no statistical significance on visual acuity between two groups.After treatment,rhe visual acuity of two groups was increased and the visual acuity in the observation group was better (P < 0.05).Before treatment,there were no statistical significance on light sensitivity between two groups.After 2 and 4 weeks treatment,the light sensitivity of two groups were increased and the light sensitivity in the observation group was higher (P < 0.05).During treatment,there was no statistical significance on adverse reaction between two groups.Conclusion Compound Anisodine Injection combined with Iodized Lecithin Tablets has a curative effect on central serous chorioretinopathy.It could increase the visual acuity and improve the light sensitivity of eyes with good security.It is worthy of clinical use.
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The trilobite larvae of C. rotundicauda were tested to determine their colour preference and light sensitivity until their first moulting (25 days post hatching) under laboratory conditions. Maximum congregation size of the trilobite larvae was found in the white zone respectively where (n= 12) followed by yellow (n= 8) and orange (n= 8), which showed the larval preference for lighter zones. Morisita’s index calculation showed a clumped/aggregated distribution (yellow, blue, orange and white) and uniform/hyper dispersed distribution (green, red and black) for various colours tested. Trilobite larvae showed least preference for brighter regions while tested in the experiment [black; (n=4) and red; (n=5)]. Experiments done to determine the light sensitivity of trilobite larvae showed that the larvae had more preference towards ultraviolet lights. The maximum congregation size of 38.8 and 40.7% of the larvae was encountered under ultraviolet light, when the light sources were kept horizontal and vertical, respectively. Overall, results suggested that the trilobite larvae of C. rotundicauda, preferred light source of shorter wavelengths (UV light) and colours of lighter zone (white, yellow, orange), which might be due to their adaptation to their natural habitat for predator avoidance, prey selection and water quality.
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Animals , Color , Horseshoe Crabs/physiology , Larva/physiology , Photophobia , Ultraviolet RaysABSTRACT
ID clarify the effects of ouabain on the ERG c-wave, isolated chick retinas were exposed to different concentrations of ouabain and the results noted. Although the c-wave was abolished at a highe. dose of ouabain (10(-4)M), its amp1itude increased in the presence of ouabain at a concentration of 10(-7)M, which was within the range of clinical use of the cardiac glycoside. On the other hand, the standing potential of the retina did not change appreciably until 10(-6)M and then decreased gradually at higher concentrations.In the presence of 10(-4)M ouabain, the concentration which completely blorked Na-K-ATPase, both the c-wave and the standing potential were almost abolished. These phenomena were more conspicuous when ouabain was applied to the vitreous side rather than the choroidal side. In the presence of 10(-7)M ouabain, the light sensitivity of the retina was elevated to 0.5 log unit and the maximum response increased about 30%. This may be a sign of visual complications of ouabain, such as metachromatopsia.