Molecular studies of the heat shock protein 60 gene of Trichinella spp(Nematoda)

Wong, Chi-sun, 黃志新

January 2001

published_or_final_version / Zoology / Master / Master of Philosophy

Trichinella spiralis - Genetics.

Genetic regulation.

Genetic control of cell shape changes and cell rearrangements during Drosophila morphogenesis

Lovegrove, Bridget Sarah

January 2005

No description available.

590

Determining the regulators of petal spot development in Gorteria diffusa

Walker, Rachel Hannah

January 2013

No description available.

580

Daisies ; Plant genetic regulation

Analysis of the expression and function of the isoforms of regulator of differentiation 1 (ROD1)

Tan, Lit Yeen

January 2011

No description available.

572

RNA splicing ; Genetic regulation

Regulation of tubulin gene expression in sea urchin embryos

Gong, Zhiyuan.

January 1987

Regulation of tubulin gene expression in embryos of the sea urchin Lytechinus pictus has been experimentally investigated by use of cloned recombinant tubulin DNA and anti-tubulin antiserum. Tubulin synthesis appears to be autogenously regulated at the level of tubulin mRNA stability by the level of unpolymerized tubulin; i.e., the more unpolymerized tubulin, the less stable the tubulin mRNA. Destabilization of tubulin mRNA requires continued protein synthesis. Most of tubulin stored in eggs is unpolymerized; during embryogenesis the mass of tubulin per embryo changes little, but unpolymerized tubulin is increasingly polymerized into microtubules. There is a transcriptional stimulation of tubulin genes at the time of ciliogenesis but thereafter autoregulation by the ontogenetic decrease of the level of unpolymerized tubulin plays a predominant role for an increasing accumulation of tubulin mRNA. Deciliation results in a transient enhancement of transcription of tubulin genes, which is independent of the level of unpolymerized tubulin and does not require protein synthesis.

Sea urchins -- Embryos.

Genetic regulation.

The regulation of megakaryocyte-specific genes by Fli-1 and GATA-1

Eisbacher, Michael, School of Medical Science, UNSW

January 2003

The successive activation of tissue-specific genes during cellular differentiation is orchestrated by the formation of transcriptional complexes consisting of cellspecific and ubiquitous transcription factors. Understanding the molecular events associated with normal megakaryocyte (Mk) differentiation is an issue of central importance to haematology. The aims of this study were therefore to: (i) define the transcription factors responsible for regulating the expression of Mkspecific genes such as Glycoprotein IX, (ii) identify the protein partners of such important Mk-regulatory transcription factors and (iii) examine the mechanisms utilised by these factors to regulate gene expression. First, the regulatory elements in the GPIX promoter required for basal and inducible expression were examined in megakaryoblastic Dami cells stimulated to undergo differentiation. The resulting data suggested that an Ets site in the GPIX promoter binding the Ets-family member Fli-1 was crucial in regulating both constitutive and inducible GPIX expression. Second, a two-hybrid screen of a K-562 cDNA library was used to identify transcription factors that interacted with Fli-1 and were potential regulators of Mk development. Results of this screen identified a novel protein-protein interaction with GATA-1, a previously well-characterised zinc finger transcription factor also implicated in erythroid and Mk development. Mapping of the domains required for the interaction show that the zinc fingers of GATA-1 interact with the Ets domain of Fli-1. The biological significance of the Fli-1/GATA-1 interaction was demonstrated in transient transfection assays, which resulted in synergistic activation of Mkspecific promoters. Analysis of Fli-1 and GATA-1 expression in a series of erythroleukaemic and megakaryoblastic cell lines demonstrated that the Fli- 1/GATA-1 combination correlates with a Mk-phenotype. Moreover, expression of Fli-1 in K-562 cells (a line rich in GATA-1 but normally lacking Fli-1) induces endogenous GPIX expression. Quantitative mobility shift assays reveal that Fli- 1 and GATA-1 exhibit cooperative DNA-binding in which the binding of GATA-1 to DNA is increased approximately 26 fold in the presence of Fli-1. This data provides a mechanism for the observed transcriptional synergy. In conclusion, this work suggests that Fli-1 and GATA-1 work together through protein-protein interaction and cooperative DNA-binding to activate the expression of genes associated with the terminal differentiation of Mks.

Megakaryocytes

Gene expression

Genetic regulation

The regulation of megakaryocyte-specific genes by Fli-1 and GATA-1

Eisbacher, Michael, School of Medical Science, UNSW

January 2003

The successive activation of tissue-specific genes during cellular differentiation is orchestrated by the formation of transcriptional complexes consisting of cellspecific and ubiquitous transcription factors. Understanding the molecular events associated with normal megakaryocyte (Mk) differentiation is an issue of central importance to haematology. The aims of this study were therefore to: (i) define the transcription factors responsible for regulating the expression of Mkspecific genes such as Glycoprotein IX, (ii) identify the protein partners of such important Mk-regulatory transcription factors and (iii) examine the mechanisms utilised by these factors to regulate gene expression. First, the regulatory elements in the GPIX promoter required for basal and inducible expression were examined in megakaryoblastic Dami cells stimulated to undergo differentiation. The resulting data suggested that an Ets site in the GPIX promoter binding the Ets-family member Fli-1 was crucial in regulating both constitutive and inducible GPIX expression. Second, a two-hybrid screen of a K-562 cDNA library was used to identify transcription factors that interacted with Fli-1 and were potential regulators of Mk development. Results of this screen identified a novel protein-protein interaction with GATA-1, a previously well-characterised zinc finger transcription factor also implicated in erythroid and Mk development. Mapping of the domains required for the interaction show that the zinc fingers of GATA-1 interact with the Ets domain of Fli-1. The biological significance of the Fli-1/GATA-1 interaction was demonstrated in transient transfection assays, which resulted in synergistic activation of Mkspecific promoters. Analysis of Fli-1 and GATA-1 expression in a series of erythroleukaemic and megakaryoblastic cell lines demonstrated that the Fli- 1/GATA-1 combination correlates with a Mk-phenotype. Moreover, expression of Fli-1 in K-562 cells (a line rich in GATA-1 but normally lacking Fli-1) induces endogenous GPIX expression. Quantitative mobility shift assays reveal that Fli- 1 and GATA-1 exhibit cooperative DNA-binding in which the binding of GATA-1 to DNA is increased approximately 26 fold in the presence of Fli-1. This data provides a mechanism for the observed transcriptional synergy. In conclusion, this work suggests that Fli-1 and GATA-1 work together through protein-protein interaction and cooperative DNA-binding to activate the expression of genes associated with the terminal differentiation of Mks.

Megakaryocytes

Gene expression

Genetic regulation

Chicken and human histone genes /

Clark, Susan Joy.

January 1982

Thesis (Ph.D.) -- Dept. of Biochemistry, University of Adelaide, 1983. / Typescript (photocopy).

The regulation of megakaryocyte-specific genes by Fli-1 and GATA-1 /

Eisbacher, Michael.

January 2003

Thesis (Ph. D.)--University of New South Wales, 2003. / Also available online.

N-myc oncogene expression in neuroblastoma is dependent on Sp1 and Sp3

Tuthill, Matthew C.

January 2003

Thesis (Ph. D.)--University of Hawaii at Manoa, 2003. / Includes bibliographical references (leaves 122-177).