Nigel Holder scite author profile

The mechanisms regulating vertebrate heart and endoderm development have recently become the focus of intense study. Here we present evidence from both loss-and gain-of-function experiments that the zinc finger transcription factor Gata5 is an essential regulator of multiple aspects of heart and endoderm development. We demonstrate that zebrafish Gata5 is encoded by the faust locus. Analysis of faust mutants indicates that early in embryogenesis Gata5 is required for the production of normal numbers of developing myocardial precursors and the expression of normal levels of several myocardial genes including nkx2.5. Later, Gata5 is necessary for the elaboration of ventricular tissue. We further demonstrate that Gata5 is required for the migration of the cardiac primordia to the embryonic midline and for endodermal morphogenesis. Significantly, overexpression of gata5 induces the ectopic expression of several myocardial genes including nkx2.5 and can produce ectopic foci of beating myocardial tissue. Together, these results implicate zebrafish Gata5 in controlling the growth, morphogenesis, and differentiation of the heart and endoderm and indicate that Gata5 regulates the expression of the early myocardial gene nkx2.5.

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Cell turnover in neuromasts of zebrafish larvae

Williams

2000

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Eph Receptors and Ephrins Are Key Regulators of Morphogenesis

Holder

Durbin²,

Cooke³

et al. 2000

161

189

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Regulatory gene expression boundaries demarcate sites of neuronal differentiation in the embryonic zebrafish forebrain

Macdonald

Barth

et al. 1994

Neuron

223

176

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Eph signaling is required for segmentation and differentiation of the somites

Durbin¹,

Brennan²,

Shiomi³

et al. 1998

Genes Dev.

245

175

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Somitogenesis involves the segmentation of the paraxial mesoderm into units along the anteroposterior axis.Here we show a role for Eph and ephrin signaling in the patterning of presomitic mesoderm and formation of the somites. Ephrin-A-L1 and ephrin-B2 are expressed in an iterative manner in the developing somites and presomitic mesoderm, as is the Eph receptor EphA4. We have examined the role of these proteins by injection of RNA, encoding dominant negative forms of Eph receptors and ephrins. Interruption of Eph signaling leads to abnormal somite boundary formation and reduced or disturbed myoD expression in the myotome. Disruption of Eph family signaling delays the normal down-regulation of her1 and Delta D expression in the anterior presomitic mesoderm and disrupts myogenic differentiation. We suggest that Eph signaling has a key role in the translation of the patterning of presomitic mesoderm into somites.

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Nigel Holder

Gata5 is required for the development of the heart and endoderm in zebrafish

Cell turnover in neuromasts of zebrafish larvae

Eph Receptors and Ephrins Are Key Regulators of Morphogenesis

Regulatory gene expression boundaries demarcate sites of neuronal differentiation in the embryonic zebrafish forebrain

Eph signaling is required for segmentation and differentiation of the somites

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