Investigating hyperoxic effects in the rat brain using quantitative susceptibility mapping based on MRI phase

In vertebrates, the endoderm is established during gastrulation and gradually becomes regionalized into domains destined for different organs. Here, we present precise fate maps of the gastrulation stage chick endoderm, using a method designed to label cells specifically in the lower layer. We show that the first population of endodermal cells to enter the lower layer contributes only to the midgut and hindgut; the next cells to ingress contribute to the dorsal foregut and followed finally by the presumptive ventral foregut endoderm. Grafting experiments show that some migrating endodermal cells, including the presumptive ventral foregut, ingress from Hensen's node, not directly into the lower layer but rather after migrating some distance within the middle layer. Cell transplantation reveals that cells in the middle layer are already committed to mesoderm or endoderm, whereas cells in the primitive streak are plastic. Based on these results, we present a revised fate map of the locations and movements of prospective definitive endoderm cells during gastrulation.

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The dual origin of the peripheral olfactory system: placode and neural crest

Katoh

Shibata

Fukuda

et al. 2011

Mol Brain

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BackgroundThe olfactory epithelium (OE) has a unique capacity for continuous neurogenesis, extending axons to the olfactory bulb with the assistance of olfactory ensheathing cells (OECs). The OE and OECs have been believed to develop solely from the olfactory placode, while the neural crest (NC) cells have been believed to contribute only the underlying structural elements of the olfactory system. In order to further elucidate the role of NC cells in olfactory development, we examined the olfactory system in the transgenic mice Wnt1-Cre/Floxed-EGFP and P0-Cre/Floxed-EGFP, in which migrating NC cells and its descendents permanently express GFP, and conducted transposon-mediated cell lineage tracing studies in chick embryos.ResultsExamination of these transgenic mice revealed GFP-positive cells in the OE, demonstrating that NC-derived cells give rise to OE cells with morphologic and antigenic properties identical to placode-derived cells. OECs were also positive for GFP, confirming their NC origin. Cell lineage tracing studies performed in chick embryos confirmed the migration of NC cells into the OE. Furthermore, spheres cultured from the dissociated cells of the olfactory mucosa demonstrated self-renewal and trilineage differentiation capacities (neurons, glial cells, and myofibroblasts), demonstrating the presence of NC progenitors in the olfactory mucosa.ConclusionOur data demonstrates that the NC plays a larger role in the development of the olfactory system than previously believed, and suggests that NC-derived cells may in part be responsible for the remarkable capacity of the OE for neurogenesis and regeneration.

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J-aggregation of photochromic spiropyran in Langmuir-Blodgett films

et al. 1985

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Early specification of intestinal epithelium in the chicken embryo: A study on the localization and regulation of CdxA expression

et al. 1997

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CdxA, a chicken homeobox-containing gene related to caudal in Drosophila, has been implicated in the regionalization of endoderm. It is reported here that, in the development of the chicken embryo, CdxA expression appears in the endoderm at day 1.5 of development as bilateral bands on either side of the splanchnopleure which later contribute to intestinal epithelium. The CdxA-expressing area extends medially and caudally as formation of the gut tube progresses. It is also shown that the rostral limit of CdxA expression demarcates the boundary between stomach and duodenum after day 3 of development. CdxA is not expressed in digestive tract appendages which open into the intestine, such as pancreas, liver and allantois. Early restriction of CdxA expression in intestinal lineage suggests that the intestinal specification involving CdxA expression commences before the gut tube is formed. The expression of CdxA in epithelial-mesenchymal tissue recombinants suggests that mesenchymal influence regulating CdxA expression plays an important role in confirming the boundary between the stomach and intestine. Chronological change in the spatial distribution of CdxA transcripts and the results of tissue recombination experiments, together with precise fate maps of early endoderm and splanchnic mesoderm, lead to a model of mechanisms by which intestinal specification is brought about.

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Monomolecular and multimolecular films of cellulose Esters with various alkyl chains

1985

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Ultraviolet photoemission study of oligothiophenes: π-band evolution and geometries

Fujimoto

Nagashima

Inokuchi

et al. 1990

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Ultraviolet photoelectron spectroscopy (UPS) has been applied to the investigation of the electronic structure of oligothiophenes with 4-8 thiophene rings. In a series of a-linked oligomers (an with n being the number of rings), a systematic evolution of the 1T band is observed. Several peaks which correspond to the 1T band are observed in the region of 0.7-3 e V below the Fermi level (E F ), and the bandwidth becomes broader with increasing n. The nonbonding 1Tband is observed at 3.5 eV below EF and its energy is almost independent of the number of thiophene units. UPS spectra of a 7 and a 8 are fairly similar to the spectra of poly thiophene, showing that these oligomers are good model compounds of the polymer. The ionization threshold energy of a 7 and poly thiophene was observed to be 5.3 eV. The effect of irregularity on the 1T-electron system was also studied by using oligomers which contain a (3 iinkage or a vinylene group at the middle of the molecule. The UPS spectra showed that the (3 linkages significantly affect the electronic structure of poly thiophene, while the vinylene group does not. In order to analyze the UPS spectra and to investigate the electronic structures of oligomers, the orbital energies and the geometries of these oligomers are calculated by the semiempirical MNDO-SCF-MO (modified neglect of diatomic overlap self-consistent-field molecular orbital) method. Theoretically simulated spectra of these oligothiophenes derived from the obtained orbital energies by Gaussian broadening are compared with the observed ones. The agreement between the observed and calculated spectra is very good, particularly in the 1T region. It is shown from the optimized geometry that (I) an's have planar structure and 1T electrons are delocalized, (2) the oligomer with (3 linkages has non planar structure leading to limited delocalization of 1T electrons, and (3) the oligomers with a vinylene group are almost planar and the disturbance by the vinylene group on the delocalization is small..) Present address:

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Endoderm development in vertebrates: fate mapping, induction and regional specification

Fukuda

Kikuchi

2005

Dev Growth Differ

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The formation of the vertebrate body plan begins with the differentiation of cells into three germ layers: ectoderm, mesoderm and endoderm. Cells in the endoderm give rise to the epithelial lining of the digestive tract, associated glands and respiratory system. One of the fundamental problems in developmental biology is to elucidate how these three primary germ layers are established from the homologous population of cells in the early blastomere. To address this question, ectoderm and mesoderm development have been extensively analyzed, but study of endoderm development has only begun relatively recently. In this review, we focus on the 'where', 'when' and 'how' of endoderm development in four vertebrate model organisms: the zebrafish, Xenopus, chick and mouse. We discuss the classical fate mapping of the endoderm and the more recent progress in characterizing its induction, segregation and regional specification.

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Role for cGATA-5 in Transcriptional Regulation of the Embryonic Chicken Pepsinogen Gene by Epithelial–Mesenchymal Interactions in the Developing Chicken Stomach

Sakamoto

Fukuda

Watanuki

et al. 2000

Developmental Biology

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A gene encoding embryonic chicken pepsinogen (ECPg), a zymogen of the digestive enzyme pepsin, is expressed specifically in epithelial cells of glands of embryonic stage proventriculus (glandular stomach) under the influence of mesenchyme. We found four GATA and one Sox binding motifs in 1.1 kb of the 5' flanking region of the ECPg gene which are essential to the organ-specific expression of the gene. The expression of cGATA-5 and cSox2 in the proventriculus from day 6 to day 12 of incubation was therefore analyzed. cGATA-5 was more strongly expressed in glandular epithelial cells than in luminal epithelial cells, while cSox2 gene expression was weaker in glandular epithelial cells. Using heterologous recombination explants we also discovered that the expression of cGATA-5 and cSox2 in epithelial cells was affected by mesenchyme when the latter induced ECPg gene expression in epithelial cells. Introduction of expression constructs into epithelial cells by electroporation demonstrated that cGATA-5 upregulated transcription of a reporter luciferase gene via a cis element in the 5' flanking region of the ECPg gene. The gel mobility shift assay revealed that the cGATA-5 protein specifically binds to the GATA binding sites. cSox2 downregulated the activity of luciferase but it was not through the Sox binding motif. These results suggest that cGATA-5 positively regulates transcription of the ECPg gene and is involved in spatial regulation of the pepsinogen gene during development.

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Kiyoshige Fukuda

Fate and plasticity of the endoderm in the early chick embryo

The dual origin of the peripheral olfactory system: placode and neural crest

J-aggregation of photochromic spiropyran in Langmuir-Blodgett films

Early specification of intestinal epithelium in the chicken embryo: A study on the localization and regulation of CdxA expression

Monomolecular and multimolecular films of cellulose Esters with various alkyl chains

Ultraviolet photoemission study of oligothiophenes: π-band evolution and geometries

Endoderm development in vertebrates: fate mapping, induction and regional specification

Role for cGATA-5 in Transcriptional Regulation of the Embryonic Chicken Pepsinogen Gene by Epithelial–Mesenchymal Interactions in the Developing Chicken Stomach

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