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Retinoic acid (simplified nomenclature for all-trans-retinoic acid) is a metabolite of vitamin A 1 (all-trans-retinol) that is required for embryonic development, male fertility, regulation of bone growth and immune function. [2] All-trans-retinoic acid is required for chordate animal development, which includes all higher animals from fish to ...
Retinoic acid, an important signaling molecule needed throughout embryogenesis, acts through the Hox genes. It was originally postulated that retinoic acid acts to induce the Hoxb-8 gene, [11] but this hypothesis has not been supported by genetic studies in mouse embryos lacking retinoic acid synthesis that still express Hoxb-8 in the limb. [8]
Establishment of the forelimb field (but not hindlimb field) requires retinoic acid signaling in the developing trunk of the embryo from which the limb buds emerge. [ 2 ] [ 3 ] Also, although excess retinoic acid can alter limb patterning by ectopically activating Shh or Meis1/Meis2 expression, genetic studies in mouse that eliminate retinoic ...
During development, retinoic acid, a metabolite of vitamin A, is used to stimulate the growth of the posterior end of the organism. [12] Retinoic acid binds to retinoic acid receptors that acts as transcription factors to regulate the expression of Hox genes. Exposure of embryos to exogenous retinoids especially in the first trimester results ...
Retinoic acid receptor-alpha, the protein, interacts with retinoic acid, a derivative of vitamin A, which plays an important role in cell growth, differentiation, and the formation of organs in embryonic development. [8] [10] Once retinoic acid binds to the RAR, the heterodimer initiates transcription and allows for its target genes to be ...
Although excess retinoic acid can alter limb patterning by ectopically activating Shh expression, genetic studies in mouse that eliminate retinoic acid synthesis have shown that RA is not required for limb patterning. [17] Chicken development is a wonderful example of this specificity of Hox gene expression in regard to limb development.
Although endogenous retinoic acid is required in higher vertebrates to limit the caudal Fgf8 domain needed for somitogenesis in the trunk (but not tail), some studies also point to a possible role of retinoic acid in ending somitogenesis in vertebrates that lack a tail (human) or have a short tail (chick). [16]
Retinoic acid via the retinoic acid receptor influences the process of cell differentiation and, hence, the growth and development of embryos. During development, there is a concentration gradient of retinoic acid along the anterior-posterior (head-tail) axis. Cells in the embryo respond to retinoic acid differently depending on the amount present.