Abstracts

Archive

 

 

  

Archive Publications

  1. Craft, CM, Whitmore, DH, Wiechmann, AF. Cone arrestin identified by targeting expression of a functional family. J Biol Chem. 1994 Feb 11;269(6):4613-9. Erratum in: J Biol Chem 1994 Jul 1;269(26):17756.(PDF)

  2. Lolley, RN, Rong, H, Craft, CM. Linkage of photoreceptor degeneration by apoptosis with inherited defect in phototransduction. Invest Ophthalmol Vis Sci. 1994 Feb;35(2):358-62.

  3. Lolley, RN. The rd gene defect triggers programmed rod cell death. The Proctor Lecture [published erratum appears in Invest Ophthalmol 1995 Mar;36(3):520]. Invest Ophthalmol Vis Sci. 1994; 35: 4182-4191 

  4. Whitmore, DH, Thai, TH, Craft, CM. The largemouth bass cytochrome b gene. Journal of Fish Biology. 1994; 44: 637-645 

  5. Craft, CM. in Melatonin Bio synthesis, physiological effects and clinical applications. (eds H.S.Yu , R.J. Reiter) Boca Raton : CRC Press; 1993: 17-38.

  6. Groshan, KR, Norton, JC, Craft, CM, Travis, GH. Isolation and characterization of a cDNA for mouse retinal phosducin [letter]. Exp Eye Res. 1993; 57 : 253-255. 

  7. Lolley, RN, Craft, CM, Lee, RH. Photoreceptors of the retina and pinealocytes of the pineal gland share common components of signal transduction. Neurochem Res. 1992 ; 17: 81-89.

  8. Whitmore, DH, Thai, TH, Craft, CM. Gene amplification permits minimally invasive analysis of fish mitochondrial DNA. Transaction of the American Fisheries. 1992; 121:170-177.

  9. Wiechmann, AF, Craft, CM. Localization of mRNA encoding the indoleamine synthesizing enzyme, hydroxyindole-O-methyltransferase, in chicken pineal gland and retina by in situ hybridization. Neurochem. 1991; 56: 1949-1956.

  10. Burochem. 1991; 56: 1949-1956ooth, DP, Hurwitz, RL Lolley, RN. Phosphodiesterase of cone photoreceptors from the lizard, Anolis carolinensis. J Ne

  11. Craft, CM, Simmoneaux, V. Retinal and pineal N-acetyltransferase (NAT): isolation of enzyme cDNA clones by an enzyme immunodetection assay (EIDA). Invest.Ophthalmol.Vis.Sci.U.S.A.1991;34:1011. 

  12. Craft, CM, Lolley, RN, Seldin, MF & Lee, RH. Rat pineal gland phosducin: cDNA isolation, nucleotide sequence, and chromosomal assignment in the mouse. Genomics.1991;10:400-409. 

  13. Craft, CM, Whitmore, DH & Donoso, LA. Differential Expression of mRNA and protein Encoding Retinal and pienal S-Antigen During the Light/Dark Cycle. J Neurochem. 1990 Nov;55(5):1461-73.

  14. Lee, RH, Brown, BM & Lolley, RN. Protein kinase A phosphorylates retinal phosducin on serine 73 in situ. J Biol Chem.1990;265:15860-15866. (PDF)

  15. Lee, RH, Fowler, A, McGinnis, JF, Lolley, RN & Craft, CM. Amino acid and cDNA sequence of bovine phosducin, a soluble phosphoprotein from photoreceptor cells. J Biol Chem.1990;265:15867-15873. (PDF)

  16. Lee, RH, Lieberman, BS & Lolley, RN. Retinal accumulation of the phosducin/T beta gamma and transducin complexes in developing normal mice and in mice and dogs with inherited retinal degeneration. Exp Eye Res.1990;51:325-333. 

  17. Lolley, RN & Lee, RH. Cyclic GMP and photoreceptor function. Faseb J.1990;4:3001-3008. 

  18. Lolley, RN & Lee, RH. Failed assembly of phosphodiesterase complex in developing photoreceptors of rd mice. Prog Clin Biol Res.1989;314:155-168. 

  19. Lee, RH, Navon, SE, Brown, BM, Fung, BK & Lolley, RN. Characterization of a phosphodiesterase-immunoreactive polypeptide from rod photoreceptors of developing rd mouse retinas. Invest Ophthalmol Vis Sci.1988;29:1021-1027. 

  20. Lee, RH, Whelan, JP, Lolley, RN & McGinnis, JF. The photoreceptor-specific 33 kDa phosphoprotein of mammalian retina: generation of monospecific antibodies and localization by immunocytochemistry. Exp Eye Res.1988;46:829-840. 

  21. Lee, RH, Whelan, JP, Lolley, RN & McGinnis, JF. The photoreceptor-specific 33 kDa phosphoprotein of mammalian retina: generation of monospecific antibodies and localization by immunocytochemistry. Exp.Eye Res.1988;46:829-840. 

  22. Scott, BL, Racz, E, Lolley, RN & Bazan, NG. Developing rod photoreceptors from normal and mutant Rd mouse retinas: altered fatty acid composition early in development of the mutant. J Neurosci Res.1988;20:202-211. 

  23. Lee, RH, Lieberman, BS & Lolley, RN. A novel complex from bovine visual cells of a 33,000-dalton phosphoprotein with beta- and gamma-transducin: purification and subunit structure. Biochemistry.1987;26:3983-3990. 

  24. Lolley, RN, Navon, SE, Fung, BK & Lee, RH. Inherited disorders of rd mice and affected Irish setter dogs: evaluation of transducin and cGMP-phosphodiesterase. Prog Clin Biol Res.1987;247:269-287. 

  25. Navon, SE, Lee, RH, Lolley, RN & Fung, BK. Immunological determination of transducin content in retinas exhibiting inherited degeneration. Exp Eye Res.1987;44:115-125. 

  26. Champney, TH, Holtorf, AP, Craft, CM & Reiter, RJ. Hormonal modulation of pineal melatonin synthesis in rats and Syrian hamsters: effects of streptozotocin-induced diabetes and insulin injections. Comp Biochem Physiol A.1986;83:391-395. 

  27. Lolley, RN, Lee, RH, Chase, DG & Racz, E. Rod photoreceptor cells dissociated from mature mice retinas. Invest Ophthalmol Vis Sci.1986;27:285-295. 

  28. Stanton, TL, Craft, CM & Reiter, RJ. Circadian and seasonal rhythms in pineal melatonin and variations during the hibernation cycle in the ground squirrel, Spermophilus lateralis. J.Exp.Zoology.1986;239:247-255. 

  29. Stanton, TL, Craft, CM & Reiter, RJ. Pineal melatonin: circadian rhythm and variations during the hibernation cycle in the ground squirrel, Spermophilus lateralis. J Exp Zool.1986;239:247-254. 

  30. Wistow, GJ, Katial, A, Craft, C & Shinohara, T. Sequence analysis of bovine retinal S-antigen. Relationships with alpha- transducin and G-proteins. FEBS Lett.1986;196:23-28. 

  31. Champney, TH, Craft, CM, Webb, SM & Reiter, RJ. Hormonal modulation of pineal melatonin synthesis in rats and Syrian hamsters: effects of adrenalectomy and corticosteroid implants. J Neural Transm.1985;64:67-79. 

  32. Craft, CM, Morgan, WW, Jones, DJ & Reiter, RJ. Hamster and rat pineal gland beta-adrenoceptor characterization with iodocyanopindolol and the effect of decreased catecholamine synthesis on the receptor. J Pineal Res. 1985; 2:51-66. 

  33. Farber, DB, Flannery, JG, Lolley, RN & Bok, D. Distribution patterns of photoreceptors, protein, and cyclic nucleotides in the human retina. Invest Ophthalmol Vis Sci.1985;26:1558-1568. 

  34. Lee, RH, Lieberman, BS, Hurwitz, RL & Lolley, RN. Phosphodiesterase-probes show distinct defects in rd mice and Irish setter dog disorders. Invest Ophthalmol Vis Sci.1985;26:1569-1579.

  35. Craft, CM & Reiter, RJ. Derivatives of [3H]serotonin in organ cultures of hamster pineal gland. Life Sci.1984;34:1775-1782. 

  36. Craft, CM, Morgan, WW & Reiter, RJ. 24-Hour changes in catecholamine synthesis in rat and hamster pineal glands. Neuroendocrinology.1984;38:193-198. 

  37. Lee, RH, Brown, BM & Lolley, RN. Light-induced dephosphorylation of a 33K protein in rod outer segments of rat retina. Biochemistry.1984;23:1972-1977. 

  38. Lolley, RN & Lee, RH. Phosphodiesterase dysfunction, cyclic GMP accumulation, and visual cell degeneration in early-onset inherited blindness. Adv Cyclic Nucleotide Protein Phosphorylation Res.1984;17:315-327. 

  39. Stanton, TL, Craft, CM & Reiter, RJ. Decreases in pineal melatonin content during the hibernation bout in the golden-mantled ground squirrel, Spermophilus lateralis. Life Sci.1984;35:1461-1467. 

  40. Lolley, RN. Cell dysfunction in inherited blindness. Trans Ophthalmol Soc U K.1983;103:438-443. 

  41. Farber, DB & Lolley, RN. Measurement of cyclic nucleotides in retina. Methods Enzymol.1982;81:551-556. 

  42. Kavipurapu, PR, Farber, DB & Lolley, RN. Degradation and resynthesis of cyclic 3', 5' -guanosine monophosphate in truncated rod photoreceptors from bovine retina. Exp Eye Res.1982;34:181-189. 

  43. Lee, RH, Brown, BM & Lolley, RN. Autophosphorylation of rhodopsin kinase from retinal rod outer segments. Biochemistry.1982;21:3303-3307. 

  44. Lee, RH, Farber, DB & Lolley, RN. Purification and properties of rod outer segment kinases. Methods Enzymol.1982;81:496-506. 

  45. Lolley, RN & Racz, E. Calcium modulation of cyclic GMP synthesis in rat visual cells. Vision Res.1982;22:1481-1486. 

  46. Lolley, RN. Dissection of retinas for biochemical studies. Methods Enzymol.1982;81:37-39. 

  47. Reiter, RJ, Vriend, J, Brainard, GC, Matthews, SA & Craft, CM. Reduced pineal and plasma melatonin levels and gonadal atrophy in old hamsters kept under winter photo-period. Experimental Aging Research.1982;8:27-30. 

  48. Vaughan, MK, Richardson, BA, Craft, CM, Powanda, MC & Reiter, RJ. Interaction of ageing, photoperiod and melatonin on plasma thyroid hormones and cholesterol levels in female Syrian hamsters (Mesocricetus auratus). Gerontology.1982;28:345-353. 

  49. Farber, DB, Souza, DW, Chase, DG & Lolley, RN. Cyclic nucleotides of cone-dominant retinas. Reduction of cyclic AMP levels by light and by cone degeneration. Invest Ophthalmol Vis Sci.1981;20:24-31. 

  50. Lee, RH, Brown, BM & Lolley, RN. Protein kinases of retinal rod outer segments: identification and partial characterization of cyclic nucleotide dependent protein kinase and rhodopsin kinase. Biochemistry.1981;20:7532-7538. 

  51. Craft-Cormney, C & Hansen, JT. Early ultrastructural changes in the myocardium following thyroxine-induced hypertrophy. Virch.Arch.B.Path.Anat.Histol.1980;33:267-273. 

  52. Lolley, RN, Rayborn, ME, Hollyfield, JG & Farber, DB. Cyclic GMP and visual cell degeneration in the inherited disorder of rd mice: a progress report. Vision Res.1980;20:1157-1161. 

  53. Lolley, RN. Cyclic nucleotide metabolism in the vertebrate retina. Curr Top Eye Res.1980;2:67-118. 

  54. Spinka, K, Farber, DB & Lolley, RN. Cyclic nucleotide content and granule cell degeneration in the developing cerebellum of staggerer mice. J Neurochem.1980;34:1531-1534. 

  55. Farber, DB & Lolley, RN. Phosphoproteins as proposed modulators of visual function. Adv Exp Med Biol.1979;116:103-115. 

  56. Aquirre, G, Farber, D, Lolley, R, Fletcher, RT & Chader, GJ. Rod-cone dysplasia in Irish setters: a defect in cyclic GMP metabolism in visual cells. Science.1978;201:1133-1134. 

  57. Farber, DB, Brown, BM & Lolley, RN. Cyclic GMP: proposed role in visual cell function. Vision Res.1978;18:497-499. 

  58. Lolley, RN. [Guanosine-3',5'-monophosphate: metabolic defect related to hereditary degeneration of visual rod cells in animals]. Vestn Akad Med Nauk SSSR.1978;12:71-78. 

  59. Farber, DB & Lolley, RN. Influence of visual cell maturation or degeneration on cyclic AMP content of retinal neurons. J Neurochem.1977;29:167-170. 

  60. Farber, DB & Lolley, RN. Light-induced reduction in cyclic GMP of retinal photoreceptor cells in vivo: abnormalities in the degenerative diseases of RCS rats and rd mice. J Neurochem. 1977; 28:1089-1095. 

  61. Kennedy, AJ, Neal, MJ & Lolley, RN. The distribution of amino acids within the rat retina. J Neurochem.1977;29:157-159.

  62. Lolley, RN, Brown, BM & Farber, DB. Protein phosphorylation in rod outer segments from bovine retina: cyclic nucleotide-activated protein kinase and its endogenous substrate. Biochem Biophys Res Commun.1977;78:572-578. 

  63. Lolley, RN, Brown, BM & Farber, DB. Protein phosphorylation in rod outer segments from bovine retina: Cyclic nucleotide-activated protein kinase and its endogenous substrate. Biochem. Biophys. Res. Commun. 1977;78:572-578. 

  64. Lolley, RN, Farber, DB, Rayborn, ME & Hollyfield, JG. Cyclic GMP accumulation causes degeneration of photoreceptor cells: simulation of an inherited disease. Science.1977;196:664-666. 

  65. Farber, DB & Lolley, RN. Calcium and magnesium content of rodent photoreceptor cells as inferred from studies of retinal degeneration. Exp Eye Res.1976;22:219-228. 

  66. Farber, DB & Lolley, RN. Enzymic basis for cyclic GMP accumulation in degenerative photoreceptor cells of mouse retina. J Cyclic Nucleotide Res.1976;2:139-148. 

  67. Lolley, RN & Farber, DB. A proposed link between debris accumulation, guanosine 3', 5' cyclic monophosphate changes and photoreceptor cell degeneration in retina of RCS rats. Exp Eye Res.1976;22:477-486. 

  68. Lolley, RN & Farber, DB. Abnormal guanosine 3', 5'-monophosphate during photoreceptor degeneration in the inherited retinal disorder of C3H/HeJ mice. Ann Ophthalmol.1976;8:469-473. 

  69. Lolley, RN & Farber, DB. Cyclic nucleotide phosphodiesterases in dystrophic rat retinas: guanosine 3',5' cyclic monophosphate anomalies during photoreceptor cell degeneration. Exp Eye Res.1975;20:585-597. 

  70. Blanks, JC, Adinolfi, AM & Lolley, RN. Photoreceptor degeneration and synaptogenesis in retinal-degenerative (rd) mice. J Comp Neurol.1974;156:95-106. 

  71. Blanks, JC, Adinolfi, AM & Lolley, RN. Photoreceptor degeneration and synaptogensis in retinal-degenerative (rd) mice. J Comp Neurol.1974;156:95-106. 

  72. Blanks, JC, Adinolfi, AM & Lolley, RN. Synaptogenesis in the photoreceptor terminal of the mouse retina. J Comp Neurol.1974;156:81-93. 

  73. Farber, DB & Lolley, RN. Cyclic guanosine monophosphate: elevation in degenerating photoreceptor cells of the C3H mouse retina. Science.1974;186:449-451. 

  74. Lolley, RN, Schmidt, SY & Farber, DB. Alterations in cyclic AMP metabolism associated with photoreceptor cell degeneration in the C3H mouse. J Neurochem.1974;22:701-707. 

  75. Farber, DB & Lolley, RN. Proteins in the degenerative retina of C3H mice: deficiency of a cyclic- nucleotide phosphodiesterase and opsin. J Neurochem.1973;21:817-828. 

  76. Lolley, RN. RNA and DNA in developing retinae: comparison of a normal with the degenerating retinae of C3H mice. J Neurochem.1973;20:175-182. 

  77. Schmidt, SY & Lolley, RN. Cyclic-nucleotide phosphodiesterase: an early defect in inherited retinal degeneration of C3H mice. J Cell Biol.1973;57:117-123. 

  78. Kurzweg, FT, Danna, SJ & Lolley, RT, Jr. Open reduction and fixation of a comminuted fracture of the sternum. J Thorac Cardiovasc Surg.1972;63:424-426. 

  79. Lolley, RN & Racz, E. Changes in levels of ATPase activity in developing retinae of normal (DBA) and mutant (C3H) mice. Vision Res.1972;12:567-571. 

  80. Lolley, RN. Changes in glucose and energy metabolism in Vivo in developing retinae from visually-competent (DBA-1J) and mutant (C3H-HeJ) mice. J Neurochem.1972;19:175-185. 

  81. Lolley, RN. Hexokinase activity in bipolar and ganglion layers of retinae which survive photoreceptor degeneration in vivo. J Neurochem.1972;19:2245-2247. 

  82. Graham, LT, Jr., Baxter, CF & Lolley, RN. In vivo influence of light or darkness on the GABA system in the retina of the frog (Rana pipiens). Brain Res.1970;20:379-388. 

  83. Lolley, RN & Hess, HH. The retinal rod outer segment of the frog: detachment, isolation, phosphorus fractions and enzyme activity. J Cell Physiol.1969;73:9-23. 

  84. Lolley, RN. Light-induced alterations in retinal pyruvate and high-energy phosphates, in vivo. J Neurochem.1969;16:1469-1476. 

  85. Lolley, RN & Racz, E. The effect of ammonium sulfate upon the Na+ plus K+ activated ATPase content of retinal tissue. Proc West Pharmacol Soc.1967;10:64-66.