Sung-Kook Hong scite author profile

Establishment of left-right asymmetry in vertebrates requires nodal, Wnt-PCP and FGF signaling and involves ciliogenesis in a laterality organ. Effector genes through which FGF signaling affects laterality have not been described. We isolated the zebrafish ier2 and fibp1 genes as FGF target genes and show that their protein products interact. Knock down of these factors interferes with establishment of organ laterality and causes defective cilia formation in Kupffer's Vesicle, the zebrafish laterality organ. Cilia are also lost after suppression of FGF8, but can be rescued by injection of ier2 and fibp1 mRNA. We conclude that Ier2 and Fibp1 mediate FGF signaling in ciliogenesis in Kupffer's Vesicle and in the establishment of laterality in the zebrafish embryo.ciliogenesis ͉ Kupffer's vesicle ͉ laterality

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Lhx1 Is Required for Specification of the Renal Progenitor Cell Field

Cirio

Zhao

Haldin

et al. 2011

PLoS ONE

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In the vertebrate embryo, the kidney is derived from the intermediate mesoderm. The LIM-class homeobox transcription factor lhx1 is expressed early in the intermediate mesoderm and is one of the first genes to be expressed in the nephric mesenchyme. In this study, we investigated the role of Lhx1 in specification of the kidney field by either overexpressing or depleting lhx1 in Xenopus embryos or depleting lhx1 in an explant culture system. By overexpressing a constitutively-active form of Lhx1, we established its capacity to expand the kidney field during the specification stage of kidney organogenesis. In addition, the ability of Lhx1 to expand the kidney field diminishes as kidney organogenesis transitions to the morphogenesis stage. In a complimentary set of experiments, we determined that embryos depleted of lhx1, show an almost complete loss of the kidney field. Using an explant culture system to induce kidney tissue, we confirmed that expression of genes from both proximal and distal kidney structures is affected by the absence of lhx1. Taken together our results demonstrate an essential role for Lhx1 in driving specification of the entire kidney field from the intermediate mesoderm.

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The zebrafish kohtalo/trap230 gene is required for the development of the brain, neural crest, and pronephric kidney

Hong

Haldin

Lawson

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

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Mutation of the gene encoding the Mediator component thyroid hormone receptor-associated protein (TRAP)230͞MED12 affects the development of multiple systems in zebrafish embryogenesis. We isolated two ethylnitrosourea-induced alleles in the gene encoding this protein and named the locus kohtalo (kto) after the homologous locus in Drosophila. Homozygous kto mutant zebrafish embryos show defects in brain, neural crest, and kidney development and die at Ϸ6 days postfertilization. In the affected tissues, differentiation is initiated and many cell type-specific genes are expressed, but there is a failure of morphogenesis and failure to complete differentiation. These results suggest that critical targets of TRAP230 function may include proteins important for cell mobility, cell sorting, and tissue assembly.branchial arches ͉ Danio rerio ͉ Mediator ͉ morphogenesis ͉ TRAP230

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Sung-Kook Hong

FGF-dependent left–right asymmetry patterning in zebrafish is mediated by Ier2 and Fibp1

Lhx1 Is Required for Specification of the Renal Progenitor Cell Field

The zebrafish kohtalo/trap230 gene is required for the development of the brain, neural crest, and pronephric kidney

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