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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Morphogenesis in Drosophila melanogaster : an in vitro analysis /

Scarborough, Julie. January 2007 (has links)
Thesis (Ph.D.) - University of St Andrews, May 2007.
2

Morphogenesis of embryonic malpighian tubules in Drosophila melanogaster

Saxena, Aditya January 2014 (has links)
No description available.
3

Identification of transposon-tagged genes associated with stubble-stubbloid function during leg morphogenesis in drosophilia melanogaster

Camarata, Troy Douglas 01 April 2002 (has links)
No description available.
4

The role of the stubble protease in RhoA signaling during Drosophila imaginal disc morphogenesis

Mou, Xiaochun 01 January 2004 (has links)
No description available.
5

Follicle cell fate determination in the Drosophila ovary : the role of the capicua gene

Rounding Atkey, Matthew January 2005 (has links)
The gene capicua is required for the establishment of dorsal-ventral polarity in the Drosophila melanogaster ovary. Loss of capicua function in the follicle cells results in dorsalization of both the embryo and eggshell. The most prominent dorsal features of the Drosophila eggshell are the dorsal appendages. We show that loss of capicua function results in the ventral ectopic specification of dorsal appendage-producing follicle cell fate. This cell fate change is due in part to the ectopic expression of genes such as mirror and Broad-Complex in capicua mutant ovaries. When either mirror or Broad-Complex are ectopically expressed independently of loss of capicua function, they generate a phenotype similar to the capicua mutant phenotype. We propose that Capicua normally acts in the ventral follicle cells to repress the expression of genes that pattern the dorsal follicle cells. EGF receptor signaling may normally inactivate Capicua repression in the dorsal follicle cells.
6

Synthesis and regulation of gurken mRNA in the Drosophila germline

Cáceres, Lucía. January 2007 (has links)
No description available.
7

Follicle cell fate determination in the Drosophila ovary : the role of the capicua gene

Rounding Atkey, Matthew January 2005 (has links)
No description available.
8

Morphogenesis in Drosophila melanogaster : an in vitro analysis

Scarborough, Julie January 2007 (has links)
The aim of this thesis was to investigate morphogenesis in the fruit fly Drosophila melanogaster using three in vitro tissue culture systems. Primary embryonic cultures derived from Drosophila melanogaster were used to study the effect of the moulting hormone ecdysone on cells in culture. The hypothesis was that the effect of ecdysone on these primary embryonic cells would parallel events which occur during metamorphosis in vivo and therefore the primary embryonic cultures could be used as an ‘in vitro’ model system. Transgenic fly lines expressing GFP were used to visualise and identify specific cell types and it was shown that cells in primary embryonic cultures respond to ecdysone morphologically. However due to the variability of cultures it was concluded that this culture system was not suitable for use as a model system. As defined cell types were observed the development of a protocol suitable for use with the primary embryonic culture system using dsRNA in order to demonstrate RNA interference was undertaken. Although this was unsuccessful, as cells in the primary embryonic cultures appeared to be resistant to dsRNA, some technical avenues remain to be explored. The Drosophila melanogaster cell line, Clone 8+, was used to investigate cell adhesion in tissue culture. Statistical analyses were carried out and it was established that derivatives of the parent cell line, Clone 8+, showed differential adhesion and proliferation characteristics. Analysis of microarray data was carried out in order to identify genes which may be responsible for the loss of cell adhesion in Clone 8+ cell lines and the potential roles of these genes in adhesion were discussed. A gene of interest, glutactin, was identified which may be responsible for loss of cell adhesion. Antibody staining was used to establish the expression of the protein glutactin in the Clone 8+ cell lines. The expression of glutactin suggested that the Clone 8+ cell line had maintained properties of the wing disc epithelial cell-type and disruption of cell polarity was considered as a possible mechanism. It was shown that f-actin colocalised with glutactin and the role of the cytoskeleton in glutactin secretion was discussed. It was concluded that glutactin was not responsible for loss of cell adhesion in the Clone 8+ cell lines. Further analysis of the microarray data revealed potential genes that could be responsible for the loss of cell polarity in the Clone 8+ cell lines and the possibility of cellular senescence was considered. It was hypothesised that the properties of adhesion and proliferation related to their ‘in vitro’ age. In the final investigation the movement of epithelial cells in Drosophila melanogaster third instar larval imaginal discs during morphogenesis was investigated. Firstly a lumen was identified in fixed imaginal disc tissue in association with cells expressing f-actin. This result was discussed in relation to the process of dorsal closure and wound healing. Further investigations involved live imaging of the dynamic process of evagination in the imaginal wing disc using transgenic flies expressing moesin-GFP. It was concluded that the lumen was not associated with the process of wound healing and it was concluded that the lumen appeared to be the mechanism directing peripodial epithelium contraction during morphogenesis of the imaginal wing disc. Dorsal closure and the process of invagination in relation to morphogenesis of the imaginal wing disc were discussed.
9

Post-transcriptional control of Drosophila pole plasm component, germ cell-less

Moore, Jocelyn. January 2008 (has links)
Mechanisms of post-transcriptional control are critical to deploy RNAs and proteins asymmetrically to a discrete region of cytoplasm at the posterior of the Drosophila oocyte and embryo, called the pole plasm and thus allow differentiation of the germline. Research presented in this thesis investigates the post-transcriptional control of Drosophila pole plasm component germ cell-less (gcl ). Maternal gcl activity is required for germ cell specification and gcl RNA and protein accumulate asymmetrically in the pole plasm. gcl RNA, but not Gcl protein, is also detected in somatic regions of the embryo, and ectopic expression of Gcl in the soma causes repression of somatic patterning genes suggesting that gcl RNA is subject to translational control. I find that Gcl is expressed during oogenesis, where its expression is regulated by translational repressor Bruno (Bru). Increased levels of Gcl are observed in the oocyte when Bru is reduced (i.e., in an arrest heterozygote) and Bru overexpression reduces the amount of Gcl. Consistent with this, reduction of the maternal dosage of Bru leads to ectopic Gcl expression in the embryo, which, in turn, causes repression of anterior huckebein RNA expression. Bruno binds directly to the gcl3'UTR in vitro, but surprisingly, this binding is largely independent of a Bruno Response Element (BRE) in the gcl 3'UTR and depends upon a novel site. Furthermore, the gcl BRE-like region is not required to repress Gcl expression during oogenesis or embryogenesis. I concluded that Bru regulates gcl translation in a BRE-independent manner. In addition, I established the role of the gcl 3'UTR in gcl RNA localization and translation using transgenes that replace the endogenous 3'UTR with the alpha-tubulin 3'UTR or place it in tandem to the bicoid 3'UTR. I find that accumulation of gcl RNA in the embryonic pole plasm requires the gcl 3'UTR. Moreover, Gel is restricted to the pole plasm by translational repression mediated by the gcl 3'UTR and a limiting pool of trans-acting translational repressors. The phenotypic consequences of loss of this translational control are relatively mild, suggesting that gcl translation does not require stringent repression in the soma.
10

Post-transcriptional control of Drosophila pole plasm component, germ cell-less

Moore, Jocelyn. January 2008 (has links)
No description available.

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