Function of the loki serinethreonine protein kinase and identification of valois

Hijal, Sirine.

January 1998

No description available.

Oogenesis.

Protein kinases.

Drosophila -- Molecular genetics.

The identification and characterisation of two novel Drosophila caspases, DRONC and DECAY

Dorstyn, Loretta Esterina.

January 2001

Includes a list of publications co-authored by the author during the preparation of this thesis. Thesis amendments in back leaf. Includes bibliographical references (leaves 123-168). The studies described concentrate on the cloning and characterisation of the two Drosophila caspases, DRONC and DECAY

Drosophila Molecular genetics

Apoptosis Immunological aspects

Cell death

Investigating pellino function in Drosophila development

Sarac, Amila.

January 2007

Although many of the genes and pathways involved in Drosophila embryogenesis have been thoroughly investigated, a complete understanding of the mechanisms behind these processes is still lacking. In order to gain a better perspective, the main objective of current research is to identify additional components of the signaling pathways that are crucial for normal Drosophila development. / One such developmental process is germ band retraction, which occurs in mid-embryogenesis and consists of the movement of the tail end of the germ band, or embryo proper, to its final posterior position. One of our primary objectives is to identify the signaling pathways behind this process. To this end, we investigated the 7T2 mutant, which fails to retract. This zygotic lethal mutant was originally uncovered in a screen for maternal-effect U-shaped embryonic phenotypes. Using a combination of meiotic recombination with molecularly mapped P-element insertions and complementation tests with deficiencies, we mapped the 7T2 mutant to the chromosomal region containing the gene pellino. Here, we show that both pellino mRNA and Pellino protein are missing in the 7T2 mutant tissue, indicating that 7T2 is a loss of function allele of pellino. / Further characterization of the 7T2 mutant revealed three distinct phenotypes: germ band retraction defects, twisted germ bands and head defects. Based on these observations, we propose that pellino is involved in several biological processes during early Drosophila development. Here we show that pellino is involved in the JNK pathway through genetic interaction with hemipterous, an upstream member of the JNK pathway. In addition, we provide preliminary evidence suggesting that the expression of Twist, a protein induced by the Toll pathway, is affected in the absence of pellino, suggesting a role for pellino in dorsal-ventral pattern formation.

Drosophila melanogaster -- Embryology.

Drosophila -- Molecular genetics.

Carrier proteins.

The identification and characterisation of two novel Drosophila caspases, DRONC and DECAY / by Loretta E. Dorstyn.

Dorstyn, Loretta Esterina

January 2001

Includes a list of publications co-authored by the author during the preparation of this thesis. / Thesis amendments in back leaf / Includes bibliographical references (leaves 123-168). / [14], 168 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / The studies described concentrate on the cloning and characterisation of the two Drosophila caspases, DRONC and DECAY / Thesis (Ph.D.)--University of Adelaide, Dept. of Medicine, 2001

Drosophila Molecular genetics

Apoptosis Immunological aspects

Cell death.

Investigating pellino function in Drosophila development

Sarac, Amila.

January 2007

No description available.

Carrier proteins.

Drosophila -- Molecular genetics.

Drosophila melanogaster -- Embryology.

ANTIMEROS and MILE END, two Bicaudal-C interacting proteins, are required for Drosophila development

Paliouras, Miltiadis

January 2005

Early Drosophila development is a coordinated series of temporal and spatial events leading to specific localized gene expression. The maternally expressed gene Bicaudal-C (Bic-C) encodes a KH-domain RNA binding protein required in the developing oocyte for anterior-posterior patterning and follicle cell migration. The dominant heterozygous phenotype results in the development of embryos with bicaudal and head defects. A two-hybrid screen using BIC-C as "bait" identified the novel protein ANTIMEROS (ATMS) and the SH3-domain containing protein MILE END (MILE). / ATMS is highly conserved between humans and mice, its expression is almost entirely female-specific, and is limited to certain developmental stages. Mutant alleles for atms are able to dominantly enhance the phenotype of Bic-C heterozygotes confirming the Bic-C-atms interaction. Here I show that NOS mislocalization causes the trans-heterozygous phenotype, as introduction of a nos mutation strongly suppresses the bicaudal phenotype. nos transcripts show a hyper-polyandenylation in atms mutant ovaries, an indicator of translational activation, suggesting that ATMS and BIC-C function as translational repressors of nos through changes in its poly(A) tail length. / MILE, contains two highly conserved SH3 domains at the C-terminus. Experiments involving the analysis of mutant alleles and overexpression mile transgenic lines show that MILE is a negative regulator of both Torso and Egfr RTK signaling. Its not clear what functional role BIC-C may have with RTK signaling, but recent evidence suggests that posterior group gene expression influence terminal pole RTK signaling.

Drosophila melanogaster -- Development

Drosophila -- Molecular genetics.

Oogenesis.

Carrier proteins

RNA-Binding Proteins

Drosophila Proteins

ANTIMEROS and MILE END, two Bicaudal-C interacting proteins, are required for Drosophila development

Paliouras, Miltiadis

January 2005

No description available.

Drosophila Proteins

RNA-Binding Proteins

Carrier proteins

Oogenesis.

Drosophila -- Molecular genetics.

Drosophila melanogaster -- Development