TY - JOUR AU - Bonting, Sjoerd L. AB - References 1. Zigman, S.; Tuttle, J.; and Lerman, S.: Antagonists of DNA Synthesis in Corneal Epithelial Cells of the Dogfish , Invest Ophthal 5:636, 1966. 2. Hanna, C.: Effect of Several Analogs of Idox-uridine on the Uptake of Tritium-labeled Thymidine in the Rabbit Cornea Infected With Herpes Simplex , Exp Eye Res 5:164, 1966.Crossref 3. Polack, F.M.: Four-year Retention of 3H-thymidine by Corneal Endothelium , Arch Ophthal 75:659, 1966.Crossref 4. Polack, F.M., and Rosen, P.N.: Topical Steroids and Tritiated Thymidine Uptake , Arch Ophthal 77:400, 1967.Crossref 5. Robert, L., and Parlebas, J.: Biosynthesis of Corneal Glycoproteins in Vitro , Bull Soc Chim Biol 47:1853, 1965. 6. Greiling, H., and Stuhlsatz, H.W.: Structure and Metabolism of Glucosaminoglycan Proteins: I. Keratan Sulfate Peptides in the Bovine Cornea , Z Physiol Chem 345:236, 1966.Crossref 7. Obenberger, J., and Praus, R.: Immunological Reactivity of the Cornea: V. Incorporation of Na2 35SO4 Into Acid Mucopolysaccharides of the Rabbit Cornea in the Course of Endotoxin Keratitis , Cesk Oftal 22:225, 1966. 8. Andrews, J.S.: Corneal Lipids: I. Sterol and Fatty Acid Synthesis in the Intact Calf Cornea , Invest Ophthal 5:367, 1966. 9. Tschetter, R.T.: Lipid Analysis of the Human Cornea With and Without Arcus Senilis , Arch Ophthal 76:403, 1966.Crossref 10. Lowry, G.M.: Corneal Endothelium in Vitro: Characterization by Ultrastructure and Histochemistry , Invest Ophthal 5:355, 1966. 11. Jonadet, M.; Bastide, P.; and Dastugue, G.: Some Esterase Activities in the Cornea: II. Salicyl Esterase, Alkaline and Acid Phosphatases , Pathol Biol Sema 14:205, 1966. 12. Weimar, V.L., and Haraguchi, K.H.: The Development of Enzyme Activities in Corneal Connective Tissue Cells During the Lag Phase of Wound Repair: II. Formalin-Resistant Oxidase-like Reactions , Invest Ophthal 5:14, 1966. 13. Adachi, M., and Pollak, O.J.: Rabbit Corneal Cells Studied in Tissue Culture: II. Enzyme reactions , Z Zellforsch 70:284, 1966.Crossref 14. Maeda, K., and Sakaguchi, K.: Na-K-Activated Adenosine Triphosphatase in the Cornea: Electron Microscopic Observations on the Rat Cornea , Japan J Ophthal 9:195, 1965. 15. Rosenthal, A.S., et al: Lead Ion and Phosphatase Histochemistry: I. Nonenzymatic Hydrolysis of Nucleoside Phosphates by Lead Ion , J Histochem Cytochem 14:698, 1966.Crossref 16. Moses, H.L., et al: Lead Ion and Phosphatase Histochemistry: II. Effect of ATP Hydrolysis by Lead Ion on the Histochemical Localization of ATPase Activity , J Histochem Cytochem 14:702, 1966.Crossref 17. Bonting, S.L.; Simon, K.A.; and Hawkins, N.M.: Studies on Na-K Activated ATPase: I. Quantitative Distribution in Several Tissues of the Cat , Arch Biochem 95:416, 1961.Crossref 18. Santos-Buch, C.A.: Extrusion of ATPase Activity From Pinocytotic Vesicles of Abutting Endothelium and Smooth Muscle of the Internal Elastic Membrane of the Major Arterial Circle of the Iris of Rabbits , Nature 211:600, 1966.Crossref 19. Stanley, J.A.; Mishima, S.; and Klyce, S.D.: In Vivo Determination of Endothelial Permeability to Water , Invest Ophthal 5:371, 1966. 20. Brown, S.I., and Mishima, S.: The Effect of Intralamellar Water-impermeable Membranes on Corneal Hydration , Arch Ophthal 76:702, 1966.Crossref 21. Marzulli, F.N.; Brown, D.W.C.; and Simon, M.E.: A Continuous Sampling Technique for Quantitatively Measuring Transcorneal Penetration in Vivo , Invest Ophthal 6:93, 1967. 22. Zadunaisky, J.A.: Active Transport of Chloride in Frog Cornea , Amer J Physiol 211:506, 1966. 23. Cherikchi, L.E.: Permeability of Opaque and Transparent Cornea for Vitamin B1, Cysteine, and Methionine Labeled with Radioactive Sulfur , Oftal Zh 21:214, 1966. 24. Kudo, T., and Takahashi, H.: Oxygen Consumption of Rabbit Cadaver Cornea , Arch Ophthal 77:88, 1967.Crossref 25. Yanagizawa, T.: Protein Fractions of Aqueous Humor: I. Normal and Secondary Aqueous Humor of Rabbits , Nippon Acta Radiol 69:2015, 1965. 26. Yanagizawa, T.: Protein Fractions of Aqueous humor: II. Aqueous humor After Acrylic Corneal Implantation , Nippon Acta Radiol 69:2021, 1965. 27. Pohjola, S.: Glucose Content of the Aqueous Humor in Man , Acta Ophthal 88( (suppl) ):80, 1966. 28. Hockwin, O.: Utilization of Polarographic Adsorption Analysis for the Determination of Pilocarpine in the Aqueous Humor in the Eye , Z Anal Chem 216:225, 1966. 29. Wong, T.: Deamidation of Adenosine Phosphoramidate by Hog Eye Ciliary Process , Comp Biochem Physiol 17:139, 1966.Crossref 30. Wong, T.: Catabolism of Adenosine 5′-phosphate by Hog Eye Ciliary Process , Comp Biochem Physiol 19:655, 1966.Crossref 31. Buddecke, E., and Wollensak: Biochemistry of the Ciliary Zonule in Bovine Eyes , Z Naturforsch 21:337, 1966. 32. Waitzman, M.B., et al: Influences of Metabolic-Effective Agents on Nucleotide Systems in Ocular Tissues , Amer J Physiol 210:1249, 1966. 33. Shiose, Y., and Sears, M.: Fine Structural Localization of Nucleoside Phosphatase Activity in the Ciliary Epitheliem of Albino Rabbits , Invest Ophthal 5:152, 1966. 34. Warner, D.M., and Drance, S.M.: Effect of Intravenous Cardiac Glycosides on the Aqueous Humor Dynamics of the Cat , Brit J Ophthal 50:701, 1966.Crossref 35. Simon, K.A.; Bonting, S.L.; and Hawkins, N.M.: Studies on Sodium-Potassium Activated Adenosine Triphosphatase: II. Formation of Aqueous Humor , Exp Eye Res 1:253, 1962.Crossref 36. Simon, K.A., and Bonting, S.L.: The Possible Usefulness of the Cardiac Glycosides in the Treatment of Glaucoma , Arch Ophthal 68:227, 1962.Crossref 37. Bonting, S.L., and Becker, B.: Studies on Sodium-Potassium Activated Adenosine Triphosphatase: XIV. Inhibitions of Enzyme Activity and Aqueous Humor Flow in the Rabbit Eye After Intravitreal Injection of Ouabain , Invest Ophthal 3:523, 1964. 38. Macri, F.J.; Dixon, R.; and Rall, D.P.: Aqueous Humor Turnover rates in the Cat: II. Effect of Ouabain and Chlorothiazide , Invest Ophthal 5:386, 1966. 39. McMaster, P.R.B., and Macri, F.J.: The rate of Aqueous Humor Formation in Buphthalmic Rabbit eye , Invest Ophthal 6:84, 1967. 40. Oppelt, W.W.: Measurement of Aqueous Humor Formation Rates by Posterior-anterior Chamber Perfusion With Inulin: Normal Values and the Effect of Carbonic Anhydrase Inhibition , Invest Ophthal 6:76, 1967. 41. Holland, M.G.: In Vitro Studies of Ciliary Body Ion Transport , Amer J Ophthal 62:1128, 1966. 42. Kubena, K.; Vaskova, M.; and Valkova, M.: Free Amino Acids in the Aqueous Humor in Glaucoma , Cesk Oftal 22:3, 1966. 43. Reddy, N.; Kinsey, V.E., and Nathorst-Windahl, G.: Comparison of Amino Acid Transport in Ocular Structures of Rabbits Made Diabetic by Alloxan and Pancreatectomy , Invest Ophthal 5:166, 1966. 44. Ballin, N., et al: Turnover of Thiourea in the Aqueous Humor of the Rabbit Eye , Invest Ophthal 5:391, 1966. 45. Esila, R., et al: Effect of Ascorbic Acid on the Intraocular Pressure and the Aqueous Humor of the Rabbit Eye , Acta Ophthal 44:631, 1966.Crossref 46. Hoffert, J.R., and Fromm, P.O.: Effect of Carbonic Anhydrase Inhibition on Aqueous Humor and Blood Bicarbonate Ion in the Teleost , Comp Biochem Physiol 18:333, 1966.Crossref 47. Tarkkanen, A., and Mustakallio, A.: Inhibition of Monoamine Oxidase in the Rabbit Ciliary Epithelium , Acta Ophthal 44:558, 1966.Crossref 48. Bill, A., and Wålinder, P.E.: The Effects of Pilocarpine on the Dynamics of Aqueous Humor in a Primate (Macaca irus) , Invest Ophthal 5:170, 1966. 49. Wålinder, P.E.: Influence of Pilocarpine on Iodopyracet and Iodide Accumulation by Rabbit Ciliary Body-Iris Preparations , Invest Ophthal 5: 378, 1966. 50. Wålinder, P.E.: Age Variation of Iodopyracet and Iodide Accumulation by the Rabbit Ciliary Body-Iris Preparation , Invest Ophthalmol 6:88, 1967. 51. Waitzman, M.B., and King, C.D.: Prostaglandin Influences on Intraocular Pressure and Pupil Size , Amer J Physiol 212:329, 1967. 52. Esila, R.; Liesmaa, M., and Tenhunen, T.: Effect of μ-methasone on the Aqueous Humor of the Rabbit Eye , Acta Ophthal 44:637, 1966.Crossref 53. Dyster-Aas, H.K., and Krakau, C.E.T.: MSH-released Serum Factor Acting on the Blood-Aqueous Barrier of the Rabbit Eye , Experientia 22:156, 1966.Crossref 54. Mason, C.V., and Hines, M.C.: Alpha, Beta, and Gamma Crystallins in the Ocular Lens of Rabbits: Preparations and Partial Characterization , Invest Ophthal 5:601, 1966. 55. Van Dam, A.F., and Cate, G. ten: Isolation and Some Properties of Bovine α-crystallin , Biochim Biophys Acta 121:183, 1966.Crossref 56. Thomann, H.: Chromatographic Investigation of Sulfhydryl Groups in the Lens , Arch Klin Exp Ophthalmol 169:85, 1966.Crossref 57. Mehta, P.D., and Maisel, H.: The Effect of Heat on Bovine Lens Proteins , Experientia 22:818, 1966.Crossref 58. Dische, Z.: The Informational Potentials of Conjugated Proteins, Protides of the Biol. Fluids, 1965. 59. Van Doorenmaalen, W.J.: Immunohistological Demonstration of Adult Lens Antigens in the Embryonic Chick Lens: II , Exp Eye Res 5:151, 1966.Crossref 60. Zwaan, J.: Sulfhydryl Groups of the Lens Proteins of the Chicken in Embryonic and Adult Stages , Exp Eye Res 5:267, 1966.Crossref 61. Zwaan, J., and Ikeda, A.: An Immunochemical Study on the Beta-Crystallins of the Chicken Lens: Ontogenetic and Phylogenetic Aspects, Eye Structure, II Symp, 1965, p 419. 62. Ikeda, A., and Zwaan, J.: Immunoflorescence Studies on Induction and Differentiation of the Chicken Eye Lens , Invest Ophthal 5:402, 1966. 63. Ogawa, T.: Appearance of Lens Antigens During the Embryonic Development of the Newt , Embryologia 8:345, 1965.Crossref 64. Ono, S., and Obara, K.: Effect of the Calcium Ion on the Protein Metabolism in the Lens , Yokohama Med Bull 16:147, 1965. 65. Bloemendal, H., et al: Polyribosomes From Calf-lens Epithelium , Biochim Biophys Acta 123:217, 1966.Crossref 66. Papaconstantinou, J.; Stewart, J.A.; and Koehn, P.D.: Localized Stimulation of Lens Protein Synthesis by Actinomycin D , Biochim Biophys Acta 114:428, 1966.Crossref 67. Young, R.W., and Fulhorst, W.: Regional Differences in Protein Synthesis Within the Lens of the Rat , Invest Ophthal 5:288, 1966. 68. Fulhorst, H.W., and Young, R.W.: Conversion of Soluble Lens Protein to Albuminoid , Invest Ophthal 5:298, 1966. 69. Kvinikhidze, G.S.: Polyploidism of Nuclei in the Embryonic Lens of Hen Embryos at Early Stage of Embryogenesis , Dokl Akad Nauk SSSR 167:1427, 1966. 70. Reddy, D.V.N.; Klethi, J.; and Kinsey, V.E.: Studies on the Crystalline Lens: XII. Turnover of Glycine and Glutamic Acid in Glutathione and Ophthalmic in the Rabbit , Invest Ophthal 5:594, 1966. 71. Schmack, W.: Aerobic and Anaerobic Glycogen Synthesis From Glucose and Fructose in the Lenses of Young and Old Cattle , Arch Klin Exp Ophthal 170:44, 1966. 72. Feldman, G.L., and Feldman, L.S.: The Isolation and Partial Characterization of Gangliosides and Ceramide Polyhexosides From the Lens of the Human Eye , Lipids 1:21, 1966.Crossref 73. Feldman, G.L., and Feldman, L.S.: Occurrence of Short Chain Triglycerides in Human Lens , Lipids 1:86, 1966.Crossref 74. Feldman, G.L.: Feldman, L.S.: and Rouser, G.: Phospholipids of the Human Lens , Lipids 1:161, 1966.Crossref 75. Hockwin, O., et al: Enzymic Activities in the Anterior and Posterior Shell, Equator, and Nucleus of the Lens in Cattle of Different Ages , Arch Klin Exp Ophthal 170:99, 1966. 76. Korhonen, E., and Korhonen, L.K.: Histochemical Demonstration of Cytochrome Oxidase Activity in the Lens , Acta Ophthal 44:577, 1966.Crossref 77. Swanson, A.A.: The Identification of Lysosomal Enzymes in Bovine Lens Epithelium , Exp Eye Res 5:145, 1966.Crossref 78. Stewart, J.A., and Papaconstantinou, J.: Lactate Dehydrogenase Isozymes and Their Relation to Lens Cell Differentiation , Biochim Biophys Acta 121:69, 1966.Crossref 79. Glaesser, D., and Berg, U.: Lactate Dehydrogenase Isoenzyme Pattern in the Lens of Cattle Eyes as a Function of Growth and Age , Z Physiol Chem 345:61, 1966.Crossref 80. Von Sallmann, L., and Grimes, P.: Effect of Age on Cell Division, 3H-thymidine Incorporation and Diurnal Rhythm in the Lens Epithelium of Rats , Invest Ophthal 5:560, 1966. 81. Young, R.W., and Ocumpaugh, D.E.: Autoradiographic Studies on the Growth and Development of the Lens Capsule in the Rat , Invest Ophthal 5:583, 1966. 82. Nakagaki, M.; Koga, N.; and Iwata, S.: Effects of Catalin and Its Analogous Phenoxazone Compounds on Lens Protein , Nippon Acta Radiol 69:1489, 1965. 83. Friedburg, D.: Activities of Glyceraldehyde Phosphate Dehydrogenase and Lactic Dehydrogenase in Lenses of Human Eyes Affected by Cataracts , Arch Klin Exp Ophthal 170:365, 1966. 84. Farkas, T.G., and Pluscec, J.: The Occurrence of Trivalent Chromium in the Aqueous and Lens of Rats , Invest Ophthal 5:398, 1966. 85. Shaker, M., and Soliman, M.K.: Glutathione and Ascorbic Acid Content of the Lens and Vitreous Humor of Camel's Eye During Fetal Development , Indian Vet J 43:501, 1966. 86. Van Heyningen, R., and Pirie, A.: The Metabolism of Naphthalene by the Rabbit Eye , Biochem J 100:70P, 1966. 87. Pirie, A., and Van Heyningen, R.: Reactions of 1, 2-dihydroxynaphthalene and of 1, 2-naphtoquinone With Eye Constituents , Biochem J 100:71P, 1966. 88. Yuge, T.: Na-K-ATPase of the Lens and Its Role in Lens Swelling , Japan J Ophthal 10:142, 1966. 89. Cotlier, E., and Beaty, C.: The Role of Na+ Ions in the Transport of α-amino-isobutyric Acid and Other Amino Acids Into the Lens , Invest Ophthal 6:64, 1967. 90. Ciusa, W., and Barbiroli, G.: Selectivity of the Crystalline Lens Capsule for L- and D-amino acids , Boll Soc Ital Biol Sper 42:997, 1966. 91. Aviram, A., et al: Glucose Utilization, Glutathione, Potassium and Sodium Content of the Isolated Bovine Lens , Clin Chim Acta 14:442, 1966.Crossref 92. Lerman, S.: Metabolic Pathways in Experimental Sugar and Radiation Cataract , Physiol Rev 45:98, 1965. 93. Sippel, T.O.: Changes in the Water, Protein, and Glutathione Contents of the Lens in the Course of Galactose Cataract Development in Rats , Invest Ophthal 5:68, 1966. 94. Sippel, T.O.: Enzymes of Carbohydrate Metabolism in Developing Galactose Cataracts of Rats , Invest Ophthal 6:59, 1967. 95. Sippel, T.O.: Enzymes of Carbohydrate Metabolism in Developing Galactose Cataracts of Rats , Invest Ophthal 6:59, 1967. 96. Korc, I., et al: In Vitro Production of Lactic Acid by Lenses of Lactose-fed Rats , Naturwissenschaften 53:227, 1966.Crossref 97. Schrader, K.E., et al: The Influence of Orotic Acid on Experimental Galactose Cataract, With Histochemical Findings , Arch Klin Exp Ophthal 168:358, 1965. 98. Alam, S.Q., et al: Effect of Threonine on the Toxicity of Excess Tyrosine and Cataract Formation in the Rat, J Nutr 89:91, 1966. 99. Von Sallmann, L., et al: Thioacetamide-induced Cataract With Invasive Proliferation of the Lens Epithelium in Rainbow Trout , Cancer Res 26:1819, 1966. 100. Brown, V.H., et al: The Role of Analgesic Drug Metabolites in the Formation of Lens Opacities , J Med Chem 9:261, 1966.Crossref 101. Sinha, D.P., and Sinha, K.P.: Observations on Glutathione and Ascorbic Acid Content in Human Cataractous Lens , J Indian Med Assoc 16:646, 1966. 102. Negroni, L.: Ultracentrifuge and Electrophoretic Fractionation of Soluble Proteins in Crystal-line Humor During Ontogenesis , Boll Soc Ital Biol Sper 42:571, 1966. 103. Van Haeringen, N.J., et al: Experiments With Haemaccel as a Vitreous Substitute , Exp Eye Res 5:235, 1966.Crossref 104. Smith, J.W., and Serafini-Fracassini, A.: The Relationship of Hyaluronate and Collagen in the Bovine Vitreous Body , J Anat 101:99, 1967. 105. Natochin, Y.V., et al: The Non-osmotic, Dehydrating Action of Urea (From Experiments on the Crystalline Lens and Vitreous Body , Tsitologiya 7:753, 1965. 106. Barker, S.A.: Fingerprinting the Hyaluronic Acid-Protein in Complex of Human Vitreous Humour , Clin Chim Acta 11:139, 1965.Crossref 107. Falbe-Hansen, I.: Separation of the Low-Molecular Weight Components of Aqueous Humor, Vitreous and Subretinal Fluid by Gel Filtration , Exp Eye Res 5:201, 1966.Crossref 108. Bridges, C.D.B.: Absorption Properties, Interconversions and Environmental Adaptation of Pigments From Fish Photoreceptors , Cold Spring Harbor Symp Quant Biol 30:317, 1965.Crossref 109. Munz, F.W., and Schwanzara, S.A.: A Nomogram for Visual Pigments Based on Retinene , Vision Res 7:111, 1967.Crossref 110. Bridges, C.D.B.: Spectroscopic Properties of Porphyropsine , Vision Res 7:349, 1967.Crossref 111. Bridges, C.D.B.: Photopigments in the Char of Lake Windermere (Salvelinus willughbii [Gunther], Forma autumnalis and Forma vernalis) , Na ture 214:205, 1967. 112. Dartnall, H.J.A.: The Visual Pigment of the Green Rods , Vision Res 7:1, 1967.Crossref 113. Rushton, W.A.H.: Densitometry of Pigments in Rods and Cones of Normal and Color Defective Subjects , Invest Ophthal 5:233, 1966. 114. Gribakin, F.G., and Govardovskii, V.I.: Structure, Visual Pigments, and Optical Properties of Photoreceptors , Usp Sovr Biol 62:120, 1966. 115. Hubbard, R., et al: Chemistry of Visual Photoreception, Cold Spring Harbor Symp Quant Biol 30:301, 1965.Crossref 116. Weale, R.A.: High Light Intensities and Photochemical Reactions of Human Visual Pigments in Situ , Cold Spring Harbor Symp Quant Biol 30:335, 1965.Crossref 117. Wolken, J.J.: Lipids and the Molecular Structure of Photoreceptors , J Amer Oil Chem Soc 43:271, 1966.Crossref 118. Rosenberg, B.: Physical Approach to the Visual Receptor Process , Advances Radiation Biol 2:193, 1966. 119. Abrahamson, E.W., and Ostroy, S.E.: The Photochemical and Macromolecular Aspects of Vision , Prog Biophys Chem 17:5, 1966. 120. Ostroy, S.E.; Rudney, H.; and Abrahamson, E.W.: Sulfhydryl Groups of Rhodopsin , Biochim Biophys Acta 126:409, 1966.Crossref 121. Mizuno, K.; Ozawa, K.; and Kuno, Y.: Synthesis of Some Colored Products Related to Rhodopsin and Its Degradation Products , Exp Eye Res 5:276, 1966.Crossref 122. Mizuno, K.; Juno, Y.; and Ozawa, K.: Models of Rhodopsin and Its Degradation Intermediates , Jap J Ophthal 10:85, 1966. 123. Blatz, P.E.: The Role of Carbonium Ions in Color Reception , J Gen Physiol 48:753, 1965.Crossref 124. Bownds, D.: Amino Acids Near the Binding Site of Retinal in Cattle Rhodopsin , Fed Proc 26:601, 1967. 125. Peskin, J.C., and Love, B.B.: The Reaction of l-cysteine With All-trans Retinene , Biochim Biophys Acta 78:753, 1963.Crossref 126. Adams, R.G.: Effect of Light on Extraction of Lipids From Retinal Rods , J Lipid Res 8:245, 1967. 127. Kito, Y., and Takezaki, M.: Studies on Retinal-opsin Linkage of Cattle Rhodopsin With Ureatreatments , Ann Rep Biol Works Fac Sci Osaka Univ 14:83, 1966. 128. Crescitelli, F.; Mommaerts, W.F.H.M.; and Shaw, T.I.: Circular Dichroism of Visual Pigments in the Visible and Ultraviolet Spectral Regions , Proc Nat Acad Sci 56:1729, 1966.Crossref 129. Millar, P.G., et al: The Homogeneity and Molecular Weight of Bovine Rhodopsin , Fed Proc 26:822, 1967. 130. Yoshizawa, T., and Wald, G.: Visual Pigments and the Keilin-Hartree Effect , Nature 212:483, 1966.Crossref 131. Fujishita, S.: Photorelease of Oxygen From Rhodopsin Solution , Jap J Physiol 16:576, 1966.Crossref 132. Falk, G., and Fatt, P.: Rapid Hydrogen Ion Uptake of Rod Outer segments and rhodopsin solutions on illumination , J Physiol 183:211, 1966. 133. Buckser, S., and Diamond, H.: Increase in Na Concentration of the Isolated Frog Retina After Light Stimulation , Biochem Biophys Res Commun 23:240, 1966.Crossref 134. Bonting, S.L.: Development and Mode of Action of the Rhodopsin System in the Photoreceptor Cell , Ophthalmologica 152:527, 1966.Crossref 135. Bonting, S.L., and Bangham, A.D.: On the Biochemical Mechanism of the Visual Process , Exp Eye Res 6(no. (3) ): 1967. 136. Bonting, S.L.; Caravaggio, L.L.; and Canady, M.R.: Studies on Sodium-Potassium Activated Adenosinetriphosphatase: X. Occurrences in Retinal Rods and Relationship to Rhodopsin , Exp Eye Res 3:47, 1964.Crossref 137. Ostrovskii, M.A., and Dettmar, P.: Effect of Ouabain on Electroretinogram of Isolated Washed Frog Retina , Biofizika 11:724, 1966. 138. Robertson, D.M.; Hollenhorst, R.W.; and Callahan, J.A.: Ocular Manifestations of Digitalis Toxicity , Arch Ophthal 76:640, 1966.Crossref 139. Robertson, D.M.; Hollenhorst, R.W.; and Callahan, J.A.: Receptor Function in Digitalis Therapy , Arch Ophthal 76:852, 1966.Crossref 140. Kikuchi, R., and Takeda, Y.: Effect on Retinal Potentials of Intracellularly Applied Tetra-ethyl-ammonium Ions , Naturwissenschaften 53:227, 1966.Crossref 141. Azuma, K., and Takagi, M.: Rhodopsin Film at Air-Water Interface , Ann Rep Biol Works Fac Sci Osaka Univ 14:73, 1966. 142. Hyono, A., and Kuriyama, S.: Monolayer Film of Rhodopsin at the Air-Water Interface , Nature 193:679, 1962.Crossref 143. Arden, G.B., et al: Isolation of a New Fast Component of the Early Receptor Potential , Proc Phys Soc 186:123, 1966. 144. Ebrey, T.G.: Fast Light-Evoked Potential From Leaves , Science 155:1556, 1967.Crossref 145. Becker, H.E., and Cone, R.A.: Light-stimulated Electrical Responses From Skin , Science 154:1051, 1966.Crossref 146. Arden, G.B.; Bridges, C.D.B.; and Ikeda, H.: Rapid Light-induced Potentials Common to Plant and Animal Tissues , Nature 212:1235, 1966.Crossref 147. Arden, G.B., and Ikeda, H.: Effects of Hereditary Degeneration of the Retina on the Early Receptor Potential and the Corneo-fundal Potential of the Rat Eye , Vision Res 6:171, 1966.Crossref 148. Brindley, G.S., and Gardener-Medwin, A.R.: The Origin of the Early Potential of the Retina , J Physiol 182:185, 1966. 149. Cone, R.A., and Brown, P.K.: Dependence of the Early Receptor Potential on the Orientation of Rhodopsin , Science 156:536, 1967. 150. Carr, R.E., et al: Rhodopsin and the Electrical Activity of the Retina in Congenital Night Blindness , Invest Ophthal 5:497, 1966. 151. Noell, W.K., et al: Retinal Damage by Light in Rats , Invest Ophthal 5:450, 1966. 152. Gorn, R.A., and Kuwabara, T.: Retinal Damage by Visible Light , Arch Ophthal 77:115, 1967.Crossref 153. Donner, K.O., and Reuter, T.: Dark Adaptation Processes in the Rhodopsin Rods of Frog Retina , Vision Res 7:17, 1967.Crossref 154. Pitt, G.A.J.: Recent Advances in the Physiology of Vitamin A , Intern Z Vitaminforsch 36:249, 1966. 155. Honory, K.: Influence of the Environment on the Level and Distribution of Vitamin A and Carotenoids in the Animal Mechanism: I. Method for the Determination of Vitamin A and Carotenoids in the Blood Serum and in the Liver , Polskie Arch Wet 9:323, 1965. 156. Nakane, P.K., and Glick, D.: Histochemistry: LXXXII. Determination of Vitamin A in Microgram Samples of Tissue and its Quantitative Histological Distribution in the Rat Adrenal , J Histochem Cytochem 13:640, 1965.Crossref 157. Morgan, B., and Thompson, J.N.: The Preparation and Biological Activity of Methyl 5, 6-epoxy-retinoate , Biochem J 101:835, 1966. 158. Akiya, S.; Yoshimura, T.; and Takemura, H.: A New Carotenoid of Carassius Retina , Nippon Acta Radiol 69:1705, 1965. 159. Auerbach, E.; Rowe, H.; and Budowski, P.: Provitamin A2: Electroretinographic Measurements of Its Effect on Photopic Sensitivity in Chicks , Nature 211:77, 1966.Crossref 160. Koen, A.L., and Shaw, C.R.: Retinol and Alcohol Dehydrogenase in Retina and Liver , Biochim Biophys Acta 128:48, 1966.Crossref 161. Reading, H.W.: Retinal and Retinol Metabolism of Hereditary Degeneration of the Retina , Biochem J 100:34P, 1966. 162. Alfieri, R.; Sole, P., and Tronche, P.: Retinosis Experimentally Induced in Rabbits by Sodium Iodate: Relations Between Electroretinographic Modifications and Vitamin A Blood Titer Variations , C R Soc Biol 160:993, 1966. 163. Sborgia, G.; Pietropaolo, C.; and Palombini, L.: Nitrogen Metabolism in Ocular Tissues: I. Deamination of Natural Amino Acids by Retina Homogenates , Biochim Appl 13:113, 1966. 164. Utermann, D.: Changes in the Retinal Metabolism of Rats With Retinal Pigments , Arch Klin Exp Ophthal 169:30, 1966. 165. Dowling, J.E., and Sidman, R.L.: Inherited Retinal Dystrophy in the Rat , J Cell Biol 14:73, 1962.Crossref 166. Sorsby, A., and Harding, R.: Oxidizing Agents as Potentiators of the Retinotoxic Action of Sodium Fluoride, Sodium Iodate, and Sodium Iodo-acetate , Nature 210:996, 1966. 167. Reading, H.W., and Sorsby, A.: Retinal Toxicity and Tissue SH Levels , Biochem Pharmacol 15:1389, 1966.Crossref 168. Green, H., and Ellison, T.: Uptake and Distribution of Chlorpromazine in Animal Eyes , Exp Eye Res 5:191, 1966.Crossref 169. Meier-Ruge, W.; Kalberer, F.; and Cerletti, A.: Mikrohistoautoradiographische Untersuchungen uber die Verteilung von tritiummarkierten Phenothiazin-Retinopathie , Ophthalmologica 151:512, 1966.Crossref 170. Meier-Ruge, W., and Cerletti, A.: Zur experimentellen Pathologie der Phenothiazin-Retinopathie , Ophthalmologica 151:512, 1966.Crossref 171. Lasansky, A., and De Fisch, F.W.: Potential, Current, and Ionic Fluxes Across the Isolated Retinal Pigment Epithelium and Choroid , J Gen Physiol 49:913, 1966.Crossref 172. Heath, H., and Fiddick, R.: The Active Transport of Ascorbic Acid by the Rat Retina , Exp Eye Res 5:156, 1966.Crossref 173. Taussky, H.H., et al: Distribution of Se in the Tissues of the Eye , Nature 210:949, 1966.Crossref 174. Christian, G.D., and Michaelis, M.: The Selenium Content of Tissues of the Human Eye , Invest Ophthal 5:248, 1966. 175. Epstein, M.H., and O'Connor, J.S.: Enzyme Changes in Isolated Retinal Layers in Light and Darkness , J Neurochem 13:907, 1963.Crossref 176. Koyanagi, T., et al: Effect of Riboflavine Deficiency on Rat Electroretinogram , J Vitaminol 12:281, 1966.Crossref 177. Saito, S.: Retinal Oxygen Metabolism in Riboflavine Deficiency in Rats , Nippon Acta Radiol 69:1379, 1965. 178. Esila, R.: Histochemical and Electrophoretic Properties of Cholinesterases and Nonspecific Esterases in the Retina of Some Animals Including Man , Acta Ophthal ( (suppl 77) ):113, 1963. 179. Pak, S.Y., and Choi, K.D.: Histochemical Changes of Cholinesterase Activity in Rabbit Retinas at Early Postnatal Stages , Yonsei Med J 5:33, 1964. 180. Rose, S., and Glow, P.H.: Effects of Intravitreous Injection of Drugs on the Cholinesterase of the Retina , Austfalian J Exp Biol Med Sci 43:737, 1965.Crossref 181. Rosenberg, P.; Dettbarn, W.D.; and Brzin, M.: Acetylcholine and Choline Acetylase in Squid Giant Axon, Ganglia, and Retina , Nature 210:858, 1966.Crossref 182. Nichols, C.W., and Koelle, G.B.: Acetylcholinesterase: Method for Demonstration in Amacrine Cells of Rabbit Retina , Science 155:477, 1967.Crossref 183. Moscona, A.A., and Piddington, R.: Stimulation by Hydrocortisone of Premature Changes in the Developmental Pattern of Glutamine Synthetase in Embryonic Retina , Biochim Biophys Acta 121:409, 1966.Crossref 184. Reif, L., and Amos, H.: A Dislyzable Inducer for the Glutamotransferase of Chick Embryo Retina , Biochem Biophys Res Commun 23:39, 1966.Crossref 185. Reading, H.W., and Sorsby, A.: Alcohol Dehydrogenase Activity of the Retina in the Normal and Dystrophic Rat , Biochem J 99:30, 1966. 186. Bonavita, V.; Guarneri, R.; and Ponte, F.: ATPase in the Normal and Dystrophic Developing Retina of the Rat , Experientia 22:720, 1966.Crossref 187. Bonavita, V., et al: Neurochemical Studies on the Inherited Retinal Degeneration of the Rat: III. Hexokinase, Phosphofructokinase, and ATPase in the Developing Retina. 188. Bastide, P.; Tronche, P.; and Dastugue, G.: Glucose-6-phosphatase and Glucose-6-phosphate Dehydrogenase Activities in Bovine Retina and Eye Humors , C R Soc Biol 160:328, 1966. 189. De Sibrik, I., and O'Rourke, J.: Respiratory Enzymes Found in Rabbit Uvea , Amer J Ophthal 62:939, 1966. 190. Shanthaveerappa, T.R.; Waitzman, M.B.; and Bourne, G.H.: Studies on the Distribution of Phosphorylase in Eyes of the Rabbit and the Squirrel Monkey , Histochemie 7:80, 1966.Crossref 191. Zeller, E.A.; Shoch, D.; and Andujar, E.: Enzymology of the Refractory Media of the Eye: VIII. Effect of Intraocular Injections of Actinomycin D and Bradykinin in Rabbits , Amer J Ophthal 61:1364, 1966. 192. Balik, J.: Method for the Biochemical Study of Tears , Acta Ophthal 43:190, 1965. 193. Balik, J., and Kubat, Z.: Concentration of Chloride Ions in the Tears of Subjects Wearing Contact Lenses , Sb Lekar 68:264, 1966. 194. Mishima, S., et al: Determination of Tear Volume and Tear Flow , Invest Ophthal 5:264, 1966. TI - Physiological Chemistry of the Eye JF - Archives of Ophthalmology DO - 10.1001/archopht.1967.00980030805019 DA - 1967-12-01 UR - https://www.deepdyve.com/lp/american-medical-association/physiological-chemistry-of-the-eye-qJ4riF0xW3 SP - 803 EP - 819 VL - 78 IS - 6 DP - DeepDyve ER -