Gene duplication is a fundamental source of a new gene in the process of evolution. A duplicated gene is able to accept many kinds of mutations that could lead to loss of function or novel phenotypic diversity. Alternatively, the duplicated genes complementarily lose part of their functions to play original roles as a set of genes, a process called subfunctionalization. Pseudotetraploid frog Xenopus laevis has four sets of genes, and it is generally thought that the alloalleles in X. laevis have mutually indistinguishable functions. In this paper, we report differences and similarities between Xhairy2a and Xhairy2b in the neural crest, floor plate, and prechordal plate. Knockdown studies showed that Xhairy2a seems not to function in the neural crest, although both of them are required in the floor plate and the prechordal plate. Temporal expression pattern analysis revealed that Xhairy2a is a maternal factor having lower zygotic expression than Xhairy2b, while Xhairy2b is not loaded in the egg but has high zygotic expression. Spatial expression pattern analysis demonstrated that future floor plate expression is shared by both alloalleles, but Xhairy2b expression in the neural crest is much higher than Xhairy2a expression, consistent with the results of individual knockdown experiments. Therefore, our data suggest that subfunctionalization occurs in Xhairy2.
The Hairy and Enhancer-of-Split (HES) family of transcriptional repressors plays important roles in pattern formation during development throughout the animal kingdom. Generally, HES proteins repress the expression of genes specific for neighboring tissues to maintain the nature of cells expressing HES proteins, resulting in pattern formation. Xhairy2b, a Xenopus HES, establishes the prospective anterior prechordal mesoderm identity in the Spemann-Mangold organizer by both inducing specific genes and repressing the genes specific for neighboring tissues. Here we report that Xhairy2b has two modes of action, each of which corresponds to inductive and repressive functions. We show that the inductive function is independent of direct transcriptional regulation and is exhibited by the C-terminal WRPW tetrapeptide motif alone, although it induces the expression of a wide variety of the organizer genes that Xhairy2b represses. The transcriptional repression by Xhairy2b is responsible for only the repressive function. We propose that the activity of the WRPW motif intrinsically induces the expression of genes specific for the organizer in a rather non-specific manner to ensure the organizer environment. Then, the transcriptional repression selectively down-regulates the expression of some of these genes, resulting in the regionalization of the axial mesoderm. Our study provides new insight into how a region of the vertebrate embryo is demarcated by one dual-functional transcription factor in the early stages of development.
Lens of vertebrate eyes is derived from competent pre-placodal ectoderm in response to signal(s) from retinal lineage. We herein report that the Xenopus Hes gene Xhairy2, which is expressed in pre-placodal ectoderm, is required for lens development from the initial stage. We show that Xhairy2 knockdown reduced the expression of lens marker genes at every step of lens determination, eventually resulting in ocular lens malformation. Interestingly, retina marker gene expression and retinal anlage morphology remained normal upon Xhairy2 knockdown. Furthermore, loss of lens field caused by Xhairy2 depletion was partially rescued by simultaneous knockdown of the cell cycle inhibitor gene p27 xic1 . These results suggest that Xhairy2 is required for lens development through the regulation of p27 xic1 expression, independent of the known cascade of transcription factors. Based on these findings, we propose that Xhairy2 may maintain an intracellular environment in which inducing signal(s) can be accepted. Developmental Dynamics 238: 2179 -2192, 2009.
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