Biology Reference
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12. McDowell JH, K¨hn H. Light-induced phosphorylation of rhodopsin in cattle photo-
receptor membranes: substrate activation and inactivation. Biochemistry . 1977;16:
4054- 4060.
13. Wilden U, K¨hn H. Light-dependent phosphorylation of rhodopsin: number of phos-
phorylation sites. Biochemistry . 1982;21:3014 - 3022.
14. K¨hn H, Hall SW, Wilden U. Light-induced binding of 48-kDa protein to photore-
ceptor membranes is highly enhanced by phosphorylation of rhodopsin. FEBS Lett .
1984;176:473- 478.
15. Miller JL, Fox DA, Litman BJ. Amplification of phosphodiesterase activation is greatly
reduced by rhodopsin phosphorylation. Biochemistry . 1986;25:4983 - 4988.
16. Wilden U, Hall SW, K¨hn H. Phosphodiesterase activation by photoexcited rhodopsin
is quenched when rhodopsin is phosphorylated and binds the intrinsic 48-kDa protein
of rod outer segments. Proc Natl Acad Sci USA . 1986;83:1174 - 1178.
17. Palczewski K, Buczylko J, Imami NR, McDowell JH, Hargrave PA. Role of the
carboxyl-terminal region of arrestin in binding to phosphorylated rhodopsin. J Biol
Chem . 1991;266:15334 - 15339.
18. McDowell JH, Nawrocki JP, Hargrave PA. Phosphorylation sites in bovine rhodopsin.
Biochemistry . 1993;32:4968 - 4974.
19. Ohguro H, Palczewski K, Ericsson LH, Walsh KA, Johnson RS. Sequential phosphor-
ylation of rhodopsin at multiple sites. Biochemistry . 1993;32:5718 - 5724.
20. Papac DI, Oatis JE, Crouch RK, Knapp DR. Mass spectrometric identification of
phosphorylation sites in bleached bovine rhodopsin. Biochemistry . 1993;32:5930 - 5934.
21. Gibson SK, Parkes JH, Liebman PA. Phosphorylation modulates the affinity of light-
activated rhodopsin for G protein and arrestin. Biochemistry . 2000;39:5738 - 5749.
22. Vishnivetskiy SA, Raman D, Wei J, Kennedy MJ, Hurley JB, Gurevich VV. Regula-
tion of arrestin binding by rhodopsin phosphorylation level. J Biol Chem . 2007;282:
32075 - 32083.
23. Liebman PA, Pugh EN. The control of phosphodiesterase in rod disk membranes:
kinetics, possible mechanisms and significance for vision. Vision Res . 1979;19:375 - 380.
24. Liebman PA, Pugh EN. ATP mediates rapid reversal of cyclic GMP phosphodiesterase
activation in visual receptor membranes. Nature . 1980;287:734 - 736.
25. Hofmann KP, Pulverm¨ ller A, Buczylko J, Van Hooser P, Palczewski K. The role of
arrestin and retinoids
in the regeneration pathway of rhodopsin.
J Biol Chem .
1992;267:15701 - 15706.
26. Sommer ME, Smith WC, Farrens DL. Dynamics of arrestin-rhodopsin interactions:
arrestin and retinal release are directly linked events. J Biol Chem . 2005;280:6861 - 6871.
27. Brown BM, Carlson BL, Zhu XM, Lolley RN, Craft CM. Light-driven translocation
of the protein phosphatase 2A complex regulates light/dark dephosphorylation of pho-
sducin and rhodopsin. Biochemistry . 2002;41:13526 - 13538.
28. Palczewski K, Buczylko J, Ohguro H, et al. Characterization of a truncated form of
arrestin isolated from bovine rod outer segments. Protein Sci . 1994;3:314 - 324.
29. Smith WC, Milam AH, Dugger DR, Arendt A, Hargrave PA, Palczewski K. A splice
variant of arrestin: molecular cloning and localization in bovine retina. J Biol Chem .
1994;269:15407 - 15410.
30. Palczewski K, Smith WC. Splice variants of arrestin. Exp Eye Res . 1996;63:599 - 602.
31. SmithWC. A splice variant of arrestin fromhuman retina. Exp Eye Res . 1996;62:585 - 592.
32. Zhu X, Ma B, Babu S, Murage J, Knox BE, Craft CM. Mouse cone arrestin gene char-
acterization: promoter
targets expression to cone photoreceptors. FEBS Lett .
2002;524:116- 122.
33. Parruti G, Ambrosini G, Sallese M, DeBlasi A. Comparative analysis of beta-adrenergic
receptor kinase and beta-arrestin mRNA expression in human cells. J Receptor Res .
1993;13:609 - 618.
 
 
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