Difference between revisions of "Sea Urchin Fertilization Lab"
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[[:Media:guide-to-sea-urchins_lowres.pdf|''A Guide to the Sea Urchin Reproductive Cycle and Staging Sea Urchin Gonad Samples'']] | [[:Media:guide-to-sea-urchins_lowres.pdf|''A Guide to the Sea Urchin Reproductive Cycle and Staging Sea Urchin Gonad Samples'']] | ||
| − | [[: | + | [[:Media:sea urchin fertilization.pdf|Vacquier, Victor D. ('''2011'''), '''''Laboratory on Sea Urchin Fertilization.''''' ''Molecular Reproduction & Development'', '''''78''''': pp.553–564.]] |
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| + | Ettensohn, Charles A. ('''2017'''), '''''Sea Urchins as a Model System for Studying Embryonic Development.''''' ''Reference Module in Biomedical Sciences'', Elsevier Inc. | ||
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| + | Thomas Deits, Martha Farrance, Erica S. Kay, Laurie Medill, Eric E. Turner, Peggy J. Weidman, and Bennett M. Shapiro., ('''1984'''),'''''Purification and Properties of Ovoperoxidase, the Enzyme Responsible for Hardening the Fertilization Membrane of the Sea Urchin Egg.''''' ''J. Biol. Chem'', '''''259 (21)''''', pp. 13525-13533. | ||
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| + | Related Reference | ||
| + | :Human Phagocytes Employ the Myeloperoxidase-Hydrogen Peroxide System to Synthesize Dityrosine, Trityrosine, Pulcherosine, and Isodityrosine by a Tyrosyl Radical-dependent Pathway | ||
Revision as of 16:31, 11 November 2018
Sea urchins are a model organism for "developmental biology"
fertilization animation (not great but okay)
in lab video (not much detail)
References
A Guide to the Sea Urchin Reproductive Cycle and Staging Sea Urchin Gonad Samples
Ettensohn, Charles A. (2017), Sea Urchins as a Model System for Studying Embryonic Development. Reference Module in Biomedical Sciences, Elsevier Inc.
Thomas Deits, Martha Farrance, Erica S. Kay, Laurie Medill, Eric E. Turner, Peggy J. Weidman, and Bennett M. Shapiro., (1984),Purification and Properties of Ovoperoxidase, the Enzyme Responsible for Hardening the Fertilization Membrane of the Sea Urchin Egg. J. Biol. Chem, 259 (21), pp. 13525-13533.
Related Reference
- Human Phagocytes Employ the Myeloperoxidase-Hydrogen Peroxide System to Synthesize Dityrosine, Trityrosine, Pulcherosine, and Isodityrosine by a Tyrosyl Radical-dependent Pathway