Project description:One-day old white Leghorn chicks were housed in brooders with a 12 hr light:dark cycle, using General Electric chroma 50 fluorescent lighting with irradiance of approximately 50μW/cm2 at chick eye level. They received Purina Chick Chow food and water ad libitum. At one week of age and at the onset of the light phase, the chicks were anesthetized with inhalation ether, and a unilateral translucent white plastic goggle was glued to the periorbital feathers to induce ipsilateral form-deprivation myopia, alternating between the left or right eye. After either 6 hrs (n=8) or 3 days (n=8) of goggle wear, the chicks were killed by decapitation. The enucleated eyes were opened at the equator, and the retina/RPE was dissected together from both the goggled and control eyes. The tissues were individually frozen and stored in liquid nitrogen until processed Experiment Overall Design: Six biological replicates used for each: 3 day control retina, 3 day experimental, 6 hour control retina, and 6 hour experimental.

Project description:The retina plays an important regulatory role in ocular growth. To screen for new retinal candidate genes that could be involved in the inhibition of ocular growth, we used chick microarrays to analyze the changes in retinal mRNA expression after myopic defocus was imposed by positive lens-wear. Chicks were raised under a 12h-light/12h-dark cycle (light-onset: 8:00 am and light-offset: 8:00 pm) with unrestricted access to water and food. On the day prior to the experiment, velcro rings were glued to the feathers around the eye under diethylether anaesthesia. Four male white leghorn chicks, aged 9 days, wore +6.9D spectacle lenses over both eyes for 24 hours. Four untreated age-matched male chicks from the same batch served as controls. After decapitation of the chicks, the eyes were enucleated and the retina was prepared. The retinae from both eyes of each chick were pooled for RNA isolation. Experiment Overall Design: Four samples each: Retina of both eyes of +6.9 diopter lens-treated chicks (plus_lens), Retina of both eyes of untreated control chicks (control)

Project description:The retina plays an important regulatory role in ocular growth. To screen for new retinal candidate genes that could be involved in the inhibition of ocular growth, we used chick microarrays to analyze the changes in retinal mRNA expression after myopic defocus was imposed by positive lens-wear. Chicks were raised under a 12h-light/12h-dark cycle (light-onset: 8:00 am and light-offset: 8:00 pm) with unrestricted access to water and food. On the day prior to the experiment, velcro rings were glued to the feathers around the eye under diethylether anaesthesia. Four male white leghorn chicks, aged 9 days, wore +6.9D spectacle lenses over both eyes for 24 hours. Four untreated age-matched male chicks from the same batch served as controls. After decapitation of the chicks, the eyes were enucleated and the retina was prepared. The retinae from both eyes of each chick were pooled for RNA isolation. Keywords: gene expression comparison

Project description:We sequenced mRNA from 16 retina/RPE/choroid samples taken from the right eyes of male chicks across control, form-deprivation occlusion, and recovery from form deprivation conditions.

Project description:We sequenced mRNA from 34 retina/RPE/choroid samples taken from the right eyes of male chicks across a time-course of normal development or refractive error induction (defocus-induced myopia and hyperopia).

Project description:Microarray analysis was performed on retina/RPE/choroid samples taken from the right eyes of male chicks across control and recovery from form deprivation conditions.

Project description:The study aim was to determine microRNA (miRNA) expression profiles of ocular tissues in form-deprivation induced myopia (FDM) mice. Form-deprivation myopia was induced in C57BL/6Jmice over the right eye; the contralateral left eyes were used as controls. Whole genome microRNA expression profiles in myopic whole eye, retina, and sclera were determined using the Agilent mouse miRNA microarray. The normalized microarray data were performed ANOVA test to identify differences in miRNA expression between myopic and control eyes. The differential expression for selected miRNAs was validated by quantitative real time PCR (qRT-PCR).

Project description:We investigated diurnal changes in gene expression in the retina and choroid at the onset of experimental myopia. We induced visual form deprivation myopia in young chicks, and isolated retinal and choroidal tissues separately in form- deprived and contralateral control eyes every 4 hours over a single 24-hour period.

Project description:Because refractive development is governed largely by the retina, we analyzed the retinal transcriptome in chicks wearing a spectacle lens, a well-established means to induce refractive errors, to identify gene expression alterations and to develop novel mechanistic hypotheses about refractive development. One-week-old white Leghorn chicks wore a unilateral spectacle lens of + or –15 diopters for 6 hours or 3 days (n=6 for each condition). With total RNA from the retina/retinal pigment epithelium (RPE), Affymetrix Chicken GeneChips were used to compare gene expression levels between lens-wearing and contralateral control eyes. Normalized microarray signal intensities were evaluated by an analysis of variance approach. Selected differentially expressed genes were validated by qPCR in biologically independent samples.

Project description:To identify to identify target tissues and molecules involved with refractive myopic shift and axial length elongation in a murine lens-induced myopia model, we performed comprehensive analysis by microRNA array. Negative 30diptor (-30D) lens was fixed on right eye (-30D) of C57BL/6J mice (3weeks old, N=3) for 3 weeks, the refraction and the axial length were measured using a refractometer and a SD-OCT system in all eyes. Eye balls were enucleated and separated to cornea, iris, lens, retina, choroid and sclera. Total RNA was extracted from individual ocular components. MicroRNA expression analysis was carried out using Agilent Mouse miRNA Microarray (8×60K) miRBase21.0 (Agilent). Expression ratio calculation and miRNA varying expression were extracted by GeneSpring GX 14.5 (Agilent). After 3weeks of lens fixing, a refractive change and an axial length elongation change were observed (Normal vs -30D: 0.95 ± 1.85D vs -18.42 ± 3.98D, 0.155 mm ± 0.015mm vs 0.273 ± 0.009 mm), respectively. MiRNA expression changes that induced only by -30D lens fixing was confirmed in each part of the eyeball. By expression ratio calculation and miRNA varying expression analysis, upregulated miRNA (56 in cornea, 13 in iris, 6 in lens, 0 in retina, 29 in choroid and 30 in sclera) and downregulated miRNA (7 in cornea, 28 in iris, 17 in lens, 9 in retina, 7 in choroid and 40 in sclera) were observed. Overlapping miRNAs were also found while each eye tissues. In this study, miRNA varying expression were observed in each ocular part of the murine lens-induced myopia model. These miRNAs dysregulation may be functionally involved with the refractive myopia shift and the axial length elongation.