TY - JOUR
T1 - Neural organization of the retina of the turtle Mauremys caspica
T2 - A light microscope and Golgi study
AU - Kolb, Helga
AU - Perlman, Ido
AU - Normann, Richard A.
N1 - Funding Information:
The work for this paper was done while H.K. and R.A.N. were visiting scientists in the Department of Physiology, Faculty of Medicine and the Rappaport Family Institute forResearch intheMedical Sciences, Technion-Israel Institute of Technology, Haifa, Israel. We acknowledge the Technion-Israel for generous financial support. Additional support comes from NEI Grants EY04855 to H.K. and EY03748 to R.A.N. We thank Stuart Stanbury for help with the artwork and we are grateful to an unnamed reviewer for pointing out the correct name for this turtle species. We would also like to thank Dr. Hedva Miller, Dr. M. Silberman, and Dr. R. Coleman for allowing us the use of their anatomical facilities.
PY - 1988/1/1
Y1 - 1988/1/1
N2 - The organization of the retina of the turtle species Mauremys caspica, found in fresh water ponds of Israel, has been examined by light microscopical techniques including examination of fresh wholemount retina, one micron blue-stained vertical sections and Golgi-stained material. The anatomical findings on Mauremys retina have been compared with those of the Pseudemys retina (Kolb, 1982) which is more commonly used for electrophysiological and neurochemical studies in the USA. The photoreceptors of Mauremys are similar in type and oil droplet content to Pseudemys photoreceptors except for the double cone in Mauremys. This cone type appears more abundant than in Pseudemys and the principal member contains a yellow oil droplet instead of an orange oil droplet. Golgi staining reveals that all the cell types that have been seen in Pseudemys are found in Mauremys with identical morphology. In addition, two amacrine cell types that were not before described for Pseudemys have been added to the classification. One of these is the tristratified dopaminergic amacrine cell described in immunocytochemical studies (Witkovsky et al., 1984; Nguyen-Legros et al., 1985; Kolb et al., 1987). We have used these anatomical studies on Pseudemys and Mauremys retina to form a catalogue of neural types for the turtle retina in general. We conclude with an attempt to combine findings from anatomy, electrophysiology, and neurochemistry to form an overview of the organization of this reptilian retina.
AB - The organization of the retina of the turtle species Mauremys caspica, found in fresh water ponds of Israel, has been examined by light microscopical techniques including examination of fresh wholemount retina, one micron blue-stained vertical sections and Golgi-stained material. The anatomical findings on Mauremys retina have been compared with those of the Pseudemys retina (Kolb, 1982) which is more commonly used for electrophysiological and neurochemical studies in the USA. The photoreceptors of Mauremys are similar in type and oil droplet content to Pseudemys photoreceptors except for the double cone in Mauremys. This cone type appears more abundant than in Pseudemys and the principal member contains a yellow oil droplet instead of an orange oil droplet. Golgi staining reveals that all the cell types that have been seen in Pseudemys are found in Mauremys with identical morphology. In addition, two amacrine cell types that were not before described for Pseudemys have been added to the classification. One of these is the tristratified dopaminergic amacrine cell described in immunocytochemical studies (Witkovsky et al., 1984; Nguyen-Legros et al., 1985; Kolb et al., 1987). We have used these anatomical studies on Pseudemys and Mauremys retina to form a catalogue of neural types for the turtle retina in general. We conclude with an attempt to combine findings from anatomy, electrophysiology, and neurochemistry to form an overview of the organization of this reptilian retina.
KW - Golgi technique
KW - Turtle retina
KW - amarcine cells
KW - photoreceptors
UR - http://www.scopus.com/inward/record.url?scp=0024182082&partnerID=8YFLogxK
U2 - 10.1017/S0952523800001012
DO - 10.1017/S0952523800001012
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C2 - 3154788
AN - SCOPUS:0024182082
SN - 0952-5238
VL - 1
SP - 47
EP - 72
JO - Visual Neuroscience
JF - Visual Neuroscience
IS - 1
ER -