Deactivation of Visual Transduction Without Guanosine Triphosphate Hydrolysis by G Protein
Author:
Affiliation:
1. Biophysics Program, Department of Biochemistry, Department of Biology, and the Center for Complex Systems, Brandeis University, Waltham, MA 02254.
Publisher
American Association for the Advancement of Science (AAAS)
Subject
Multidisciplinary
Reference37 articles.
1. ADOLPH, A.R., SPONTANEOUS SLOW POTENTIAL FLUCTUATIONS IN LIMULUS PHOTORECEPTOR, JOURNAL OF GENERAL PHYSIOLOGY 48: 297 (1964).
2. BAEHR, W, ISOLATION AND CHARACTERIZATION OF CGMP PHOSPHODIESTERASE FROM BOVINE ROD OUTER SEGMENTS, JOURNAL OF BIOLOGICAL CHEMISTRY 254: 1669 (1979).
3. BARKDOLL, A.E., CALCIUM DEPENDENCE OF THE ACTIVATION AND INACTIVATION KINETICS OF THE LIGHT-ACTIVATED PHOSPHODIESTERASE OF RETINAL RODS, JOURNAL OF GENERAL PHYSIOLOGY 93: 1091 (1989).
4. BENNETT, N, ACTIVATION OF CGMP PHOSPHODIESTERASE IN RETINAL RODS - MECHANISM OF INTERACTION WITH THE GTP-BINDING PROTEIN (TRANSDUCIN), BIOCHEMISTRY 28: 7418 (1989).
5. BIERNBAUM, M.S., FROG ROD OUTER SEGMENTS WITH ATTACHED INNER SEGMENT ELLIPSOIDS AS AN INVITRO MODEL FOR PHOTORECEPTORS ON THE RETINA, JOURNAL OF GENERAL PHYSIOLOGY 85: 83 (1985).
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