Protein profiles of microsections of the fetal and adult human lens during development and ageing
Tài liệu tham khảo
Hockwin, 1986, Correlation of Scheimpflug photography of the anterior eye segment with biochemical analysis of the lens, Graefe's Arch. Clin, Exp. Ophthalmol., 224, 265, 10.1007/BF02143067
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
Bours, 1989, Protein profiles of microsections of the human fetal lens during development, Ophthalmic Res., 20, 88
Bours, 1989, Crystallin profiles of human fetal and adult lens microsections and of young compared to adult lens, analyzed by agarose isoelectric focusing, Ophthalmic Res., 21, 326
Bours, 1988, Crystallin and water content of the fetal and adult human lens during development and ageing, Ophthalmic Res., 20, 89
Bours, 1986, Human fetal lens: Wet and dry weight with increasing gestational age, Ophthalmic Res., 18, 363, 10.1159/000265464
Hockwin, 1987, Measuring lens transparency by Scheimpflug photography of the anterior eye segment: Principle, instrumentation and application to clinical and experimetnal ophthalmology, J. Toxicol.-Cut. Ocular Toxicol., 6, 251, 10.3109/15569528709052174
Draper, 1966
Ahrend, 1987, Water-soluble and -insoluble crystallins of the developing human fetal lens, analyzed by agarose/PAA thin-layer isoelectric focusing, Ophthalmic Res., 19, 150, 10.1159/000265487
Bours, 1983, Biochemistry of the ageing rat lens, 15, 234
Bando, 1976, Measurement of protein distribution in human lens by microspectophotometry, Exp. Eye Res., 22, 389, 10.1016/0014-4835(76)90231-1
Ahrend, 1985, Protein profiles of microsections of bovine and rat lenses, Ophthalmic Res., 17, 197
Bours, 1988, Water content, crystallin composition and enzyme activities of 7 enzymes in microsections of the ageing bovine lens, Ophthalmic Res., 20, 82
Lahm, 1985, Age dependence of freezable and nonfreezable water content of normal human lenses, Invest, Ophthalmol. Vis. Sci., 26, 1126
Bours, 1986, A re-evaluation of lens wet weight, water content and water-soluble and -insoluble -crystallins of the ageing human lens, compared with other species, Vol. 147, 373
Bours, 1986, Isotachophoresis of human fetal lens crystallins with increasing gestational age, Ophthalmic Res., 18, 369, 10.1159/000265465
Bessems, 1989, Size and charge heterogeneity of the water-soluble -crystallins from developing human fetal lenses, Ophthalmic Res., 21, 340
Thomson, 1985, Ontogeny of human lens crystallins, Exp. Eye Res., 40, 393, 10.1016/0014-4835(85)90152-6
Ringens, 1982, Protein distribution and characterization in the prenatal and postnatal human lens, Exp. Eye Res., 34, 815, 10.1016/S0014-4835(82)80041-9
Mostafapour, 1982, Age-related changes in the protein concentration gradient and the crystallin polypeptides of the lens, Invest. Ophthalmol. Vis. Sci., 22, 606
Alcala, 1988, Human β-crystallins: regional and age related changes, Curr. Eye Res., 7, 353, 10.3109/02713688809031784
Zigler, 1985, Partial characterization of 3 distinct populations of human γ-crystallins, Invest. Ophthalmol. Vis. Sci., 26, 525
Russell, 1987, Relationship between proteins encoded by 3 human γ-crystallin genes and distinct polypeptides in the eye lens, Mol. Cell. Biol., 7, 3320, 10.1128/MCB.7.9.3320
Bours, 1989, Age-related changes in the composition of water-soluble and insoluble crystallins from bovine lens parts, determined by isoelectric focusing in normal and agarose/PAA gels, Ophthalmic Res., 21, 341
Spector, 1974, Age-dependent changes in the molecular size of human lens proteins and their relationship to light scatter, Invest. Ophthalmol., 13, 795
Hogan, 1971
Bours, 1973, The use of protein markers in thin-layer isoelectric focusing, Sci. Tools, 20, 29