PMID: 9183694Jun 2, 1997Paper

Spatiotemporal coordination of rod and cone photoreceptor differentiation in goldfish retina

The Journal of Comparative Neurology
D L StenkampP A Raymond

Abstract

In this study, we have compared spatial and temporal aspects of development of new rods and cones in the adult goldfish by using a combination of bromodeoxyuridine immunocytochemistry and opsin in situ hybridization to determine the intervals between terminal mitosis (cell "birth") and expression of opsin mRNA for each photoreceptor cell type. The goldfish opsins include rod opsin and four different cone opsins: red, green, blue, and ultraviolet. In a cohort of photoreceptors born at the same time, rods expressed opsin mRNA within 3 days of cell birth, while expression of cone opsin mRNA required at least 7 days. This temporal discrepancy in differentiation, coupled with a discordance in the site of cell genesis of rods and cones, allowed opsin expression to commence in both cell types in approximately the same retinal location. Commitment to the generic cone phenotype occurred within approximately 6 days throughout the cone cohort, as indicated by expression of interphotoreceptor retinoid-binding protein (IRBP) mRNA, but expression of a specific spectral phenotype was delayed until rods differentiated nearby. Onset of expression of cone opsin mRNA followed a phenotype-specific sequence: red, then green, then blue, and finally ...Continue Reading

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Citations

Apr 8, 2014·Comptes rendus biologies·Kim Tuyen Nguyen-Ba-Charvet, Alain Chédotal
Jan 15, 2014·Progress in Retinal and Eye Research·Jenny R Lenkowski, Pamela A Raymond
Apr 4, 2009·Zoological Science·Taka-aki Mizuno, Teruya Ohtsuka
Jul 29, 2006·BMC Developmental Biology·Pamela A RaymondJohn J Perkowski
Jan 26, 2007·Proceedings. Biological Sciences·I Novales FlamariqueC R Figiel
Oct 14, 2009·Journal of Chemical Neuroanatomy·Susana Ferreiro-GalveEva Candal
Aug 20, 2005·Developmental Dynamics : an Official Publication of the American Association of Anatomists·Ruben Adler
Sep 26, 2008·Developmental Dynamics : an Official Publication of the American Association of Anatomists·Steve M NelsonDeborah L Stenkamp
Sep 30, 2010·The Journal of Comparative Neurology·W Ted AllisonPamela A Raymond
Dec 25, 2004·Brain Research. Developmental Brain Research·Eva CandalIsabel Rodríguez-Moldes
Jul 13, 2004·Brain Research. Developmental Brain Research·Rachel G Henderson, Russell D Fernald
Jul 12, 2011·Progress in Retinal and Eye Research·Deborah L Stenkamp
Jul 31, 2001·Developmental Biology·R AdlerT L Belecky-Adams
Oct 3, 1999·Journal of Theoretical Biology·S TohyaY Iwasa
Apr 2, 2003·Vision Research·Deborah C Otteson, Peter F Hitchcock
Jun 12, 2003·Developmental Biology·James M Fadool
Aug 27, 2005·Developmental Biology·Rebecca L BradfordRuben Adler
Jan 13, 2000·Trends in Neurosciences·J E Cook, L M Chalupa
Feb 6, 2008·Zebrafish·Peter F Hitchcock, Pamela A Raymond
Jul 29, 2004·The Journal of Comparative Neurology·Peter Hitchcock, Laura Kakuk-Atkins
Sep 8, 2009·Neuroreport·Taka-aki Mizuno, Teruya Ohtsuka
Jan 26, 2006·The Journal of Comparative Neurology·Christiana L ChengNorbert H Haunerland
Feb 19, 2021·Frontiers in Cell and Developmental Biology·Manuela LahneDavid R Hyde
Jun 11, 2002·Journal of Theoretical Biology·Atsushi Mochizuki
Aug 5, 2000·Progress in Retinal and Eye Research·R Adler
Sep 5, 1998·Trends in Cell Biology·E M MorrowC L Cepko

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