Structural Evidence of Human Nuclear Fiber Compaction as a Function of Ageing and Cataractogenesis
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Al-Ghoul, 1996, Fiber cell morphology and cytoplasmic texture in cataractous and normal human lens nuclei, Curr Eye Res, 15, 533, 10.3109/02713689609000764
Allen, 1987, Band 3 and ankyrin homologues are present in eye lens: evidence for all major erythrocyte membrane components in same non-erythroid cell, Biochem. Biophys. Res. Commun., 149, 266, 10.1016/0006-291X(87)91634-2
Andley, 2000, Biochemical mechanisms of age-related cataract, 1428
Babizhayev, 1994, Lipid peroxide and reactive oxygen species generating systems of the crystalline lens, Biochim. Biophys. Acta, 1225, 326, 10.1016/0925-4439(94)90014-0
Bettelheim, 1985, Physical basis of lens transparency, 265
Bhuyan, 1986, Lipid peroxidation in cataract of the human, Life Sci., 38, 1463, 10.1016/0024-3205(86)90559-X
Borchman, 1998, Age-related lipid oxidation in human lenses, Invest. Ophthalmol. Vis. Sci., 39, 1053
Bours, 1987, Age-related changes in water and crystallin content of the fetal and adult human lens demonstrated by a microsectioning technique, Ophthalmic Res., 19, 235, 10.1159/000265500
Brown, 1988, Central compaction in the process of lens growth as indicated by lamellar cataract, British J. Ophthalmol., 72, 538, 10.1136/bjo.72.7.538
Delaye, 1983, Short range order of crystallin proteins accounts for eye lens transparency, Nature, 302, 415, 10.1038/302415a0
Duke-Elder, 1961, The lens, 309
Garland, 1996, The nucleus of the human lens: demonstration of a highly characteristic protein pattern by two-dimensional electrophoresis and introduction of a new method of lens dissection, Exp. Eye Res., 62, 285, 10.1006/exer.1996.0034
Gilliland, 1998, Light and electron microscopy of human lens nuclei from transparent lenses and age-related cataracts, Invest. Ophthalmol. Vis. Sci., 39, S313
Horwitz, 1983, The distibution of soluble crystallins in the nucleus of normal and cataractous lenses, Lens Res., 1, 159
Kenworthy, 1994, Colloid osmotic pressure of steer alpha- and beta-crystallins: possible functional roles for lens crystallin distribution and structural diversity, Exp. Eye Res., 59, 11, 10.1006/exer.1994.1077
Kuszak, 1995, The ultrastructure of epithelial and fiber cells in the crystlline lens, Int. Rev. Cytol., 163, 305, 10.1016/S0074-7696(08)62213-5
Kuszak, 1994, Embryology and anatomy of the crystalline lens, 82
Kuszak, 1988, The ultrastructure of fiber cells in primate lenses: a model for studying membrane senescence, J. Ultrastruct. Mol. Struct. Res., 100, 60, 10.1016/0889-1605(88)90059-6
Kuszak, 1994, The interrelationship of lens anatomy and optical quality. II. Primate lenses, Exp. Eye Res., 59, 521, 10.1006/exer.1994.1138
Kuszak, 2000, The relationship between rabbit lens optical quality and sutural anatomy after vitrectomy, Exp. Eye Res., 71, 267, 10.1006/exer.2000.0877
Kuwabara, 1968, Microtubules in the lens, Arch. Ophthalmol., 79, 189, 10.1001/archopht.1968.03850040191017
Laursen, 1979, Variations of lens thickness in relation to biomicroscopic types of human senile cataract, Acta Ophthalmol., 57, 1, 10.1111/j.1755-3768.1979.tb06653.x
Li, 1986, Changes in lens proteins in concentric fractions from individual normal human lenses, Curr. Eye Res., 5, 127, 10.3109/02713688609015101
Sandilands, 1995, Vimentin and CP49/filensin form distinct networks in the lens which are independently modulated during lens fibre cell differentiation, J. Cell Sci., 108, 1397, 10.1242/jcs.108.4.1397
Sivak, 1994, The interrelationship of lens anatomy and optical quality. I. Non-primate lenses, Exp. Eye Res., 59, 505, 10.1006/exer.1994.1137
Tardieu, 1992, Protein interactions in the calf eye lens: interactions between beta-crystallins are repulsive whereas in gamma-crystallins they are attractive, Eur. Biophys. J., 21, 1, 10.1007/BF00195438
Truscott, 2000, Age-related nuclear cataract: a lens transport problem, Ophthalmic Res., 32, 185, 10.1159/000055612
Worgul, 1982, Lens, 355
Zigler, 1994, Lens proteins, 97