S‐potentials from colour units in the retina of fish (Cyprinidae)
暂无分享,去创建一个
[1] H. Dartnall,et al. Visual pigment 467, a photosensitive pigment present in tench retinae , 1952, The Journal of physiology.
[2] G. Brindley,et al. The colour of light of very long wavelength , 1955, The Journal of physiology.
[3] D. Jameson,et al. Some quantitative aspects of an opponent-colors theory. II. Brightness, saturation, and hue in normal and dichromatic vision. , 1955, Journal of the Optical Society of America.
[4] T. Tomita. A study on the origin of intraretinal action potential of the cyprinid fish by means of pencil-type microelectrode. , 1957, The Japanese journal of physiology.
[5] G. Svaetichin,et al. Electric responses from the isolated retinas of fishes. , 1958, American journal of ophthalmology.
[6] T. Tosaka,et al. Functional organization of the cyprinid fish retina as revealed by discriminative responses to spectral illumination. , 1959, The Japanese journal of physiology.
[7] E. MacNichol,et al. RETINAL MECHANISMS FOR CHROMATIC AND ACHROMATIC VISION , 1958, Annals of the New York Academy of Sciences.
[8] K. Motokawa,et al. Origin of so-called cone action potential. , 1959, Journal of neurophysiology.
[9] G. Entine,et al. Sensitive low-light-level microspectrophotometer: detection of photosensitive pigments of retinal cones. , 1964, Journal of the Optical Society of America.
[10] W. B. Marks,et al. Visual pigments of single goldfish cones , 1965, The Journal of physiology.
[11] K. Naka,et al. An attempt to analyse colour reception by electrophysiology , 1966, The Journal of physiology.
[12] K. Naka,et al. S‐potentials from luminosity units in the retina of fish (Cyprinidae) , 1966, The Journal of physiology.