Abstract
A common problem in research laboratories that study the mammalian embryo after nuclear transfer is the limited supply of material. For this reason, new methods are continually developed, and existing methods for cells in culture are adapted to suit this peculiar experimental model. Among them is the fluorescent immunodetection.
Fluorescent immuno-detection on fixed embryos is an invaluable technique to detect and locate proteins, especially nuclear ones such as modified histones, in single embryos thanks to its specificity and its sensitivity. Moreover, with specific fixation procedures that preserve the 3D shape of the embryos, immunostaining can now be performed on whole-mount embryos. Target proteins are detected by specific binding of first antibody usually nonfluorescent, and revealed with a second antibody conjugated with a fluorochrome directed specifically against the host animal in which the first antibody was produced. The result can then be observed on a microscope equipped with fluorescent detection. Here, we describe the 3D fluorescent immunodetection of epigenetic modifications in mouse embryos. This procedure can be used on nuclear transferred embryos but also on in vivo-collected, in vitro-developed and in vitro-fertilized ones.
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Acknowledgement
All the present and past members from the lab should be acknowledged for their hard work, especially Lydia Ruddick and Bénédicte Sanseau who corrected this book chapter. We are also grateful to Pierre Adenot and Renaud Fleurot for Confocal and Apotome microscopy on the MIMA2 platform (Microscopie et Imagerie des Microorganismes, Animaux et aliments). Work in the lab is supported by the REVIVE Labex.
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Boulesteix, C., Beaujean, N. (2015). Fluorescent Immunodetection of Epigenetic Modifications on Preimplantation Mouse Embryos. In: Beaujean, N., Jammes, H., Jouneau, A. (eds) Nuclear Reprogramming. Methods in Molecular Biology, vol 1222. Humana Press, New York, NY. https://doi.org/10.1007/978-1-4939-1594-1_9
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DOI: https://doi.org/10.1007/978-1-4939-1594-1_9
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