John H Postlethwait1, Yi-Lin Yan2, Thomas Desvignes2, Corey Allard3, Tom Titus2, Nathalie R Le François4, H William Detrich3. 1. Institute of Neuroscience, University of Oregon, Eugene, Oregon. jpostle@uoneuro.uoregon.edu. 2. Institute of Neuroscience, University of Oregon, Eugene, Oregon. 3. Biodôme de Montréal, Division des collections vivantes et recherche, Montréal, Quebec, Canada. 4. Department of Marine and Environmental Sciences, Marine Science Center, Northeastern University, Nahant, Massachusetts.
Abstract
BACKGROUND: Environmental temperature influences rates of embryonic development, but a detailed staging series for vertebrate embryos developing in the subzero cold of Antarctic waters is not yet available from fertilization to hatching. Given projected warming of the Southern Ocean, it is imperative to establish a baseline to evaluate potential effects of changing climate on fish developmental dynamics. RESULTS: We studied the Bullhead notothen (Notothenia coriiceps), a notothenioid fish inhabiting waters between -1.9 and +2 °C. In vitro fertilization produced embryos that progressed through cleavage, epiboly, gastrulation, segmentation, organogenesis, and hatching. We compared morphogenesis spatially and temporally to Zebrafish and medaka. Experimental animals hatched after about 6 months to early larval stages. To help understand skeletogenesis, we analyzed late embryos for expression of sox9 and runx2, which regulate chondrogenesis, osteogenesis, and eye development. Results revealed that, despite their prolonged developmental time course, N. coriiceps embryos developed similarly to those of other teleosts with large yolk cells. CONCLUSIONS: Our studies set the stage for future molecular analyses of development in these extremophile fish. Results provide a foundation for understanding the impact of ocean warming on embryonic development and larval recruitment of notothenioid fish, which are key factors in the marine trophic system. Developmental Dynamics 245:1066-1080, 2016.
BACKGROUND: Environmental temperature influences rates of embryonic development, but a detailed staging series for vertebrate embryos developing in the subzero cold of Antarctic waters is not yet available from fertilization to hatching. Given projected warming of the Southern Ocean, it is imperative to establish a baseline to evaluate potential effects of changing climate on fish developmental dynamics. RESULTS: We studied the Bullhead notothen (Notothenia coriiceps), a notothenioid fish inhabiting waters between -1.9 and +2 °C. In vitro fertilization produced embryos that progressed through cleavage, epiboly, gastrulation, segmentation, organogenesis, and hatching. We compared morphogenesis spatially and temporally to Zebrafish and medaka. Experimental animals hatched after about 6 months to early larval stages. To help understand skeletogenesis, we analyzed late embryos for expression of sox9 and runx2, which regulate chondrogenesis, osteogenesis, and eye development. Results revealed that, despite their prolonged developmental time course, N. coriiceps embryos developed similarly to those of other teleosts with large yolk cells. CONCLUSIONS: Our studies set the stage for future molecular analyses of development in these extremophile fish. Results provide a foundation for understanding the impact of ocean warming on embryonic development and larval recruitment of notothenioid fish, which are key factors in the marine trophic system. Developmental Dynamics 245:1066-1080, 2016.
Authors: William A Cresko; Yi-Lin Yan; David A Baltrus; Angel Amores; Amy Singer; Adriana Rodríguez-Marí; John H Postlethwait Journal: Dev Dyn Date: 2003-11 Impact factor: 3.780
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Authors: Yi-Lin Yan; Craig T Miller; Robert M Nissen; Amy Singer; Dong Liu; Anette Kirn; Bruce Draper; John Willoughby; Paul A Morcos; Adam Amsterdam; Bon-Chu Chung; Monte Westerfield; Pascal Haffter; Nancy Hopkins; Charles Kimmel; John H Postlethwait; Robert Nissen Journal: Development Date: 2002-11 Impact factor: 6.868
Authors: Thomas Desvignes; Nathalie R Le François; Laura C Goetz; Sierra S Smith; Kathleen A Shusdock; Sandra K Parker; John H Postlethwait; H William Detrich Journal: Sci Rep Date: 2019-04-12 Impact factor: 4.379
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