Completing the set of h/ E(spl) cyclic genes in zebrafish: her12 and her15 reveal novel modes of expression and contribute to the segmentation clock
Somitogenesis is the key developmental process that lays down the framework for a metameric body in vertebrates. Somites are generated from the un-segmented presomitic mesoderm (PSM) by a pre-patterning process driven by a molecular oscillator termed the segmentation clock. The Delta–Notch intercell...
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Veröffentlicht in: | Developmental biology 2007-04, Vol.304 (2), p.615-632 |
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Zusammenfassung: | Somitogenesis is the key developmental process that lays down the framework for a metameric body in vertebrates. Somites are generated from the un-segmented presomitic mesoderm (PSM) by a pre-patterning process driven by a molecular oscillator termed the segmentation clock. The Delta–Notch intercellular signaling pathway and genes belonging to the
hairy (
h) and
Enhancer of split (
E(spl))-related (
h/E(spl)) family of transcriptional repressors are conserved components of this oscillator. A subset of these genes, called cyclic genes, is characterized by oscillating mRNA expression that sweeps anteriorly like a wave through the embryonic PSM. Periodic transcriptional repression by H/E(spl) proteins is thought to provide a critical part of a negative feedback loop in the oscillatory process, but it is an open question how many cyclic
h/E(spl) genes are involved in the somitogenesis clock in any species, and what distinct roles they might play. From a genome-wide search for
h/E(spl) genes in the zebrafish, we previously estimated a total of five cyclic members. Here we report that one of these, the m
Hes5 homologue
her15 actually exists as a very recently duplicated gene pair. We investigate the expression of this gene pair and analyse its regulation and activity in comparison to the paralogous
her12 gene, and the other cyclic
h/E(spl) genes in the zebrafish. The
her15 gene pair and
her12 display novel and distinct expression features, including a caudally restricted oscillatory domain and dynamic stripes of expression in the rostral PSM that occur at the future segmental borders.
her15 expression stripes demarcate a unique two-segment interval in the rostral PSM. Mutant, morpholino, and inhibitor studies show that
her12 and
her15 expression in the PSM is regulated by Delta–Notch signaling in a complex manner, and is dependent on
her7, but not
her1 function. Morpholino-mediated
her12 knockdown disrupts cyclic gene expression, indicating that it is a non-redundant core component of the segmentation clock. Over-expression of
her12,
her15 or
her7 disrupts cyclic gene expression and somite border formation, and structure function analysis of Her7 indicates that DNA binding, but not Groucho-recruitment seems to be important in this process. Thus, the zebrafish has five functional cyclic
h/E(spl) genes, which are expressed in a distinct spatial configuration. We propose that this creates a segmentation oscillator that varies in biochemical composition depending on |
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ISSN: | 0012-1606 1095-564X |
DOI: | 10.1016/j.ydbio.2007.01.004 |