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Roles of homeodomain transcription factors during organogenesisXu, Jun 12 June 2012 (has links)
The spatial and temporal patterning of sequence specific transcription factors (SSTFs) contributes to cell type specification and organ formation during embryogenesis. Homeodomain transcription factors are evolutionally conserved among invertebrate and vertebrate animals. They are responsible for body segmentation and organogenesis. Lbx1 and Pitx2 both are homeodomain transcription factors contributing to SSTF pattern formation during multiple organ formations. We studied how homeodomain transcription factors regulate SSTF and non-SSTF genes in a population-specific manner using the Lbx1[superscript EGFP] and Pitx2[superscript LacZ] mouse models. We have studied the role of Lbx1 in dorsal horn interneuron specification and Pitx2 in forelimb muscle formation. The two top non-SSTF target genes, NPY and Chmp2b, of Lbx1 are studied for expression pattern and potential neuronal function in neural tube. The T box, Hox gene families and Pax genes were identified as Pitx2 target genes via microarray analysis and their expression pattern were analyzed in forelimb. The expression domains of signaling molecules were altered in absence of Pitx2, suggesting that Pitx2 played a general role in pattern formation in forelimb mesenchyme. / Graduation date: 2013
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Regulation of vertebrate ladybird genesLukowski, Chris Unknown Date
No description available.
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Regulation of vertebrate ladybird genesLukowski, Chris 06 1900 (has links)
Development of the vertebrate central nervous system is a complex process that relies on the accurate spatiotemporal distribution of signaling centers during embryogenesis. These signals provide cells with positional information, which is integrated via transcription factors and gene regulatory elements to generate a specific downstream gene expression profile that confers specific cellular functions. It is of interest to determine how cells acquire their unique spatiotemporal gene expression patterns. The wide variety of expression profiles established along the dorsoventral axis of the neural tube provides a great system to address this question. Recent advances in zebrafish transgenic technology, along with the phenomenon of a fish-specific genome duplication event, have been exploited here to provide an efficient way of identifying and characterizing gene regulatory elements. An identified neuronal-specific enhancer near the ladybird locus has been incorporated into a transgenic zebrafish strain driving fluorescent reporter protein expression in a subset of dorsal interneurons / Molecular Biology and Genetics
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Étude des déterminants génétiques et moléculaires de la scoliose idiopathiqueNada, Dina 04 1900 (has links)
No description available.
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