Jacqueline M. Gad scite author profile

Jacqueline M. Gad

3Publications

241Citation Statements Received

72Citation Statements Given

How they've been cited

268

221

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Affiliations

Children's Medical Research Institute, Ludwig Cancer Research, Royal Melbourne Hospital

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Sequential allocation and global pattern of movement of the definitive endoderm in the mouse embryo during gastrulation

Tam

Khoo

Lewis

et al. 2007

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During mouse gastrulation, endoderm cells of the dorsal foregut are recruited ahead of the ventral foregut and move to the anterior region of the embryo via different routes. Precursors of the anterior-most part of the foregut and those of the mid-and hind-gut are allocated to the endoderm of the mid-streak-stage embryo, whereas the precursors of the rest of the foregut are recruited at later stages of gastrulation. Loss of Mixl1 function results in reduced recruitment of the definitive endoderm, and causes cells in the endoderm to remain stationary during gastrulation. The observation that the endoderm cells are inherently unable to move despite the expansion of the mesoderm in the Mixl1-null mutant suggests that the movement of the endoderm and the mesoderm is driven independently of one another.

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The Expression Patterns of Guidance Receptors, DCC and Neogenin, Are Spatially and Temporally Distinct throughout Mouse Embryogenesis

Gad

Keeling

Wilks

et al. 1997

Developmental Biology

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To gain a better understanding of the role of DCC and Neogenin in neural and nonneural tissues during vertebrate development we have carried out in situ hybridization studies to determine their expression patterns throughout the mid to late stages of mouse embryogenesis. This analysis revealed striking contrasts in both the spatial and temporal expression patterns of these closely related molecules. While DCC mRNA expression was predominantly restricted to the developing central nervous system (CNS), Neogenin mRNA was detected in a broad spectrum of embryonic tissues. Outside the CNS, Neogenin expression was observed mainly in mesodermal derivatives such as organ primordia and cartilage condensations of many developing embryonic structures. Within the CNS, initiation of DCC expression correlated with the onset of neurogenesis and was maintained at high levels in all regions of the developing CNS actively undergoing neurogenesis. By E18.5, DCC expression was detected only in structures such as the olfactory bulb, the hippocampus, and the cerebellum, that are known to sustain active neurogenesis well into postnatal life. In contrast, Neogenin expression was weak in the early developing CNS but broadened and intensified as neurogenesis proceeded. In summary, these observations indicate that Neogenin is the predominant member of this subfamily in mesodermal tissues, while DCC and Neogenin may play complementary roles in the generation of the fully functional CNS.

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Mouse Neogenin, a DCC-like molecule, has four splice variants and is expressed widely in the adult mouse and during embryogenesis

1997

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Neogenin is a member of the N-CAM family of cell adhesion molecules and is closely related to the DCC tumor suppressor gene product. Recently, it has been demonstrated that the DCC/Neogenin subfamily plays a key role in axonal guidance within the embryonic nervous system, however little is known about the function of DCC or Neogenin in non-neuronal tissues in vertebrates. To gain an understanding of Neogenin function outside of the nervous system we have cloned and sequenced the mouse homologue of Neogenin. We describe three alternatively spliced exons within the extracellular domain of Neogenin and a fourth alternatively spliced exon within the cytoplasmic domain. We further demonstrate that three of these alternatively spliced exons are developmentally regulated. Analysis of Neogenin mRNA expression showed that two distinct Neogenin transcripts are expressed at signi®cant levels in a broad spectrum of adult mouse tissues and throughout the mid to late stages of embryogenesis. In situ hybridization studies on day 15.5 mouse embryos revealed that Neogenin is expressed widely throughout the developing mouse embryo, in both neuronal and nonneuronal tissues. These observations suggests that Neogenin may play an integral role in regulating di erentiation programmes and/or cell migration events within many embryonic and adult tissues.

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Jacqueline M. Gad

Sequential allocation and global pattern of movement of the definitive endoderm in the mouse embryo during gastrulation

The Expression Patterns of Guidance Receptors, DCC and Neogenin, Are Spatially and Temporally Distinct throughout Mouse Embryogenesis

Mouse Neogenin, a DCC-like molecule, has four splice variants and is expressed widely in the adult mouse and during embryogenesis

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