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Full-Text Articles in Medicine and Health Sciences
Retinoic Acid And The Development Of The Endoderm, Gregory M. Kelly, Thomas A. Drysdale
Retinoic Acid And The Development Of The Endoderm, Gregory M. Kelly, Thomas A. Drysdale
Paediatrics Publications
Retinoic acid (RA) is an important signaling molecule in the development of the endoderm and an important molecule in protocols used to generate endodermal cell types from stem cells. In this review, we describe the RA signaling pathway and its role in the patterning and specification of the extra embryonic endoderm and different endodermal organs. The formation of endoderm is an ancient evolutionary feature and RA signaling appears to have coevolved with the vertebrate lineage. Towards that end, we describe how RA participates in many regulatory networks required for the formation of extraembryonic structures as well as the organs of …
Understanding Early Organogenesis Using A Simplified In Situ Hybridization Protocol In Xenopus, Steven J. Deimling, Rami R. Halabi, Stephanie A. Grover, Jean H. Wang, Thomas A. Drysdale
Understanding Early Organogenesis Using A Simplified In Situ Hybridization Protocol In Xenopus, Steven J. Deimling, Rami R. Halabi, Stephanie A. Grover, Jean H. Wang, Thomas A. Drysdale
Paediatrics Publications
Organogenesis is the study of how organs are specified and then acquire their specific shape and functions during development. The Xenopuslaevis embryo is very useful for studying organogenesis because their large size makes them very suitable for identifying organs at the earliest steps in organogenesis. At this time, the primary method used for identifying a specific organ or primordium is whole mount in situ hybridization with labeled antisense RNA probes specific to a gene that is expressed in the organ of interest. In addition, it is relatively easy to manipulate genes or signaling pathways in Xenopus and in situ hybridization …