scholarly article | Q13442814 |
P2093 | author name string | Jean X Jiang | |
Lawrence Brako | |||
Sondip K Biswas | |||
Woo-Kuen Lo | |||
Jai Eun Lee | |||
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Loss of ephrin-A5 function disrupts lens fiber cell packing and leads to cataract | Q28508868 | ||
Connexin46, a novel lens gap junction protein, induces voltage-gated currents in nonjunctional plasma membrane of Xenopus oocytes | Q28568971 | ||
Molecular cloning of ovine connexin44 and temporal expression of gap junction proteins in a lens cell culture. | Q30900524 | ||
Coincident loss of mitochondria and nuclei during lens fiber cell differentiation | Q30995170 | ||
Formation, distribution and dissociation of intercellular junctions in the lens | Q34179447 | ||
Lens gap junctions: a structural hypothesis for nonregulated low-resistance intercellular pathways | Q34228577 | ||
Molecular cloning and functional characterization of chick lens fiber connexin 45.6. | Q34441564 | ||
THE ELECTRON MICROSCOPY OF THE NORMAL HUMAN LENS | Q35527038 | ||
On the structural organization of isolated bovine lens fiber junctions | Q36206040 | ||
Lens gap junctions in growth, differentiation, and homeostasis. | Q36233134 | ||
Chromatin degradation in differentiating fiber cells of the eye lens. | Q36274024 | ||
Gap junctional coupling in lenses from alpha(8) connexin knockout mice | Q36445196 | ||
Connections between connexins, calcium, and cataracts in the lens. | Q36445429 | ||
Lens of the rat eye: an electron microscope and freeze-etch study | Q36545251 | ||
Molecular cloning of sheep connexin49 and its identity with MP70. | Q36801804 | ||
The lens circulation. | Q36849396 | ||
The electrophysiology of the crystalline lens | Q38077956 | ||
Freeze-fracture replica of the primate lens fibers | Q39648075 | ||
Mouse Cx50, a functional member of the connexin family of gap junction proteins, is the lens fiber protein MP70 | Q40241212 | ||
A portrait of plasma membrane specializations in eye lens epithelium and fibers | Q40637517 | ||
Ocular lens gap junctions: protein expression, assembly, and structure-function analysis. | Q40930953 | ||
Studies on the distribution of cholesterol, phospholipid, and protein in the human and bovine lens. | Q41257900 | ||
Physiological properties of the normal lens | Q41336645 | ||
Cell to cell communication and pH in the frog lens | Q41936590 | ||
Differential requirement for beta-catenin in epithelial and fiber cells during lens development | Q42439342 | ||
Epithelial organization of the mammalian lens | Q42493493 | ||
Expression of transforming growth factor beta in the embryonic avian lens coincides with the presence of mitochondria. | Q42515247 | ||
Micro-domains of AQP0 in lens equatorial fibers | Q42528292 | ||
Gap junction remodeling associated with cholesterol redistribution during fiber cell maturation in the adult chicken lens. | Q43078668 | ||
Gap junctions contain different amounts of cholesterol which undergo unique sequestering processes during fiber cell differentiation in the embryonic chicken lens | Q43107067 | ||
Regulation of lens connexin 45.6 by apoptotic protease, caspase-3. | Q44027849 | ||
Chick connexin-56, a novel lens gap junction protein. Molecular cloning and functional expression | Q48137584 | ||
The maturation of the lens cell: a morphologic study | Q66922687 | ||
Gap junctions of chick lens fiber cells | Q67428387 | ||
Spatial and temporal distribution of the adherens-junction-associated adhesion molecule A-CAM during avian embryogenesis | Q68029576 | ||
Structure and distribution of gap junctions in lens epithelium and fiber cells | Q68799878 | ||
Alterations in fiber cell membranes of Emory mouse cataract: a morphologic study | Q69019541 | ||
Interlocking patterns on primate lens fibers | Q69376997 | ||
Distribution of gap junctions and square array junctions in the mammalian lens | Q69612442 | ||
Membrane interlocking domains in the lens | Q69619472 | ||
Ultrastructural observations of typical gap junctions in human foetal lens nucleus | Q70150486 | ||
Adherens junctions in the ocular lens of various species: ultrastructural analysis with an improved fixation | Q70412834 | ||
The three-dimensional organization of lens fibers in the rhesus monkey | Q70600325 | ||
The surface morphology of embryonic and adult chick lens‐fiber cells | Q70749270 | ||
Square arrays and their role in ridge formation in human lens fibers | Q70806821 | ||
Purification of bovine lens cell-to-cell channels composed of connexin44 and connexin50 | Q70826107 | ||
Stereo scanning electron microscopy of the crystalline lens | Q70998025 | ||
Morphology of the normal human lens | Q71104983 | ||
Gap junction structures and distribution patterns of immunoreactive connexins 46 and 50 in lens regrowths of Rhesus monkeys | Q71234722 | ||
Regional distribution of sterol and fatty acid synthesis in the ocular lens | Q71296946 | ||
The three-dimensional organization of lens fibers in the rabbit. A scanning electron microscopic reinvestigation | Q71919898 | ||
Multiple structural types of gap junctions in mouse lens | Q72680707 | ||
Actin filament bundles in cortical fiber cells of the rat lens | Q73876432 | ||
Association of clathrin, AP-2 adaptor and actin cytoskeleton with developing interlocking membrane domains of lens fibre cells | Q73904423 | ||
Associated proteins of lens adherens junction | Q74720749 | ||
Lens fiber organization in four avian species: a scanning electron microscopic study | Q93585576 | ||
P304 | page(s) | 2328-2341 | |
P577 | publication date | 2010-11-09 | |
P1433 | published in | Molecular Vision | Q6895981 |
P1476 | title | Gap junctions are selectively associated with interlocking ball-and-sockets but not protrusions in the lens | |
P478 | volume | 16 |
Q37615857 | Aquaporin-0 targets interlocking domains to control the integrity and transparency of the eye lens |
Q36828540 | Breakdown of interlocking domains may contribute to formation of membranous globules and lens opacity in ephrin-A5(-/-) mice |
Q39239492 | Changes in the Properties and Organization of Human Lens Lipid Membranes Occurring with Age. |
Q41009756 | Connexin 50 Functions as an Adhesive Molecule and Promotes Lens Cell Differentiation. |
Q37020902 | Connexin 50 Regulates Surface Ball-and-Socket Structures and Fiber Cell Organization. |
Q90330063 | Connexin 50 and AQP0 are Essential in Maintaining Organization and Integrity of Lens Fibers |
Q35785790 | Functions of cholesterol and the cholesterol bilayer domain specific to the fiber-cell plasma membrane of the eye lens. |
Q37723091 | Knock-in of Cx46 partially rescues fiber defects in lenses lacking Cx50 |
Q35155886 | Lipid domains in intact fiber-cell plasma membranes isolated from cortical and nuclear regions of human eye lenses of donors from different age groups. |
Q37658470 | Lipid-protein interactions in plasma membranes of fiber cells isolated from the human eye lens |
Q37179651 | Tropomodulin 1 Regulation of Actin Is Required for the Formation of Large Paddle Protrusions Between Mature Lens Fiber Cells |
Q41863860 | Ultrastructural analysis of the human lens fiber cell remodeling zone and the initiation of cellular compaction. |
Q37227740 | p62 expression and autophagy in αB-crystallin R120G mutant knock-in mouse model of hereditary cataract. |
Q45504129 | β1 integrin as the integrating component in cell-cell cooperation for maintenance of lens transparency. |