Sergey L. Znoiko scite author profile

This study seems to confirm the sandwich theory of posterior capsule opacification in eyes with an IOL and suggests that fibronectin may be the major extracellular protein responsible for the attachment of hydrophobic soft acrylate (AcrySof(R)) IOLs to the capsular bag. This may represent a true bioactive bond between the IOL and lens epithelial cells or between the IOL and the capsular bag and may be one reason the PCO and neodymium:YAG capsulotomy rates are lower in eyes with a soft acrylate IOL.

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A Visual Pigment Expressed in Both Rod and Cone Photoreceptors

Xing

Znoiko

Othersen

et al. 2001

Neuron

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Rods and cones contain closely related but distinct G protein-coupled receptors, opsins, which have diverged to meet the differing requirements of night and day vision. Here, we provide evidence for an exception to that rule. Results from immunohistochemistry, spectrophotometry, and single-cell RT-PCR demonstrate that, in the tiger salamander, the green rods and blue-sensitive cones contain the same opsin. In contrast, the two cells express distinct G protein transducin alpha subunits: rod alpha transducin in green rods and cone alpha transducin in blue-sensitive cones. The different transducins do not appear to markedly affect photon sensitivity or response kinetics in the green rod and blue-sensitive cone. This suggests that neither the cell topology or the transducin is sufficient to differentiate the rod and the cone response.

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Adhesion of fibronectin, vitronectin, laminin, and collagen type IV to intraocular lens materials in pseudophakic human autopsy eyes

Linnola¹,

Werner

Pandey

et al. 2000

124

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The greater amount of protein on the hydrophobic soft acrylate (AcrySof(R)) IOLs seems to support an adhesive mechanism for their attachment to the capsular bag. Fibronectin and vitronectin have functional domains to bind them to lens epithelial cells and the collagenous capsule. This kind of attachment could be a true bioactive bond and may be 1 reason the PCO and neodymium:YAG capsulotomy rates are lower in eyes with a soft acrylate IOL.

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Salamander Blue‐sensitive Cones Lost During Metamorphosis^†

Chen

Znoiko

DeGrip

et al. 2008

Photochem & Photobiology

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The tiger salamander lives in shallow water with bright light in the aquatic phase, and in dim tunnels or caves in the terrestrial phase. In the aquatic phase, there are five types of photoreceptors--two types of rods and three types of cones. Our previous studies showed that the green rods and blue-sensitive cones contain the same visual pigment and have the same absorbance spectra; however, the green rods have a larger photon-catch area and thus have higher light sensitivity than the blue-sensitive cones. Here we show that after metamorphosis, the terrestrial salamander looses the blue-sensitive cones, while the density of the green rods increases. Moreover, the size of the green rod outer segments is increased in the terrestrial phase, compared to that in the aquatic phase. This switch from the blue-sensitive cones to the green rods may represent an adaptation to the dim light environment of the terrestrial phase.

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Sergey L. Znoiko

Downregulation of Cone-Specific Gene Expression and Degeneration of Cone Photoreceptors in theRpe65^−/−Mouse at Early Ages

Adhesion of fibronectin, vitronectin, laminin, and collagen type IV to intraocular lens materials in pseudophakic human autopsy eyes

A Visual Pigment Expressed in Both Rod and Cone Photoreceptors

Adhesion of fibronectin, vitronectin, laminin, and collagen type IV to intraocular lens materials in pseudophakic human autopsy eyes

Salamander Blue‐sensitive Cones Lost During Metamorphosis^†

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Sergey L. Znoiko

Downregulation of Cone-Specific Gene Expression and Degeneration of Cone Photoreceptors in theRpe65−/−Mouse at Early Ages

Adhesion of fibronectin, vitronectin, laminin, and collagen type IV to intraocular lens materials in pseudophakic human autopsy eyes

A Visual Pigment Expressed in Both Rod and Cone Photoreceptors

Adhesion of fibronectin, vitronectin, laminin, and collagen type IV to intraocular lens materials in pseudophakic human autopsy eyes

Salamander Blue‐sensitive Cones Lost During Metamorphosis†

Contact Info

Product

Resources

About

Downregulation of Cone-Specific Gene Expression and Degeneration of Cone Photoreceptors in theRpe65^−/−Mouse at Early Ages

Salamander Blue‐sensitive Cones Lost During Metamorphosis^†