The role of the Eph family in somitogenesis in the zebrafish

Durbin, Lindsey Kate

January 1999

No description available.

572.8

Identification and characterization of genetic interactors of the Rho Guanine-nucleotide exchange factor Pebble in Drosophila

Draga, Margarethe Maria

January 2010

The gene pebble (pbl) encodes a Rho GEF required for the migration of mesoderm cells during Drosophila gastrulation. The spreading of mesoderm cells is controlled by the FGF signalling pathway acting through the FGF receptor Heartless (Htl). Pbl represents an important downstream component of this FGF pathway and activates the Rho GTPase Rac, but the regulation of Pbl by FGF signalling is unclear. Furthermore Pbl is required for the formation of the actin-myosin contractile ring during cytokinesis by activation of RhoA. The purpose of this work is to find molecular links between Pbl and the Htl signalling pathway and get insight into the localization and regulation of Pbl during mesoderm cell migration A genetic screen is carried out to find genes that interact with Pbl and are involved in mesoderm development. A gain-of-function variant of Pbl that causes defects in eye morphology was used to find genetic interactors. Results of a screen using chromosomal deletions and an EMS-based screen revealed candidates, which genetically interact with Pbl and are required for mesoderm cell migration. In addition, a structure-function analysis of the Pbl protein was performed. The data revealed an important role of the PH domain for the localization of Pbl at the cell cortex. Moreover the PH domain is indispensable for the function of Pbl in mesoderm migration. Furthermore an important role for the C-terminal tail of Pbl for the regulation of the protein was shown, which might be regulated by FGF signalling. The C-terminal tail is required for the stability of the protein outside the nucleus and it regulates the substrate preference of Pbl for Rac and Rho. Furthermore indication was found that the function of the C-terminal tail possibly is regulated by phosphorylation of Ser825 in the C-terminal tail. Mutation of this site affects the function of Pbl during mesoderm migration but not in cytokinesis. Therefore phosphorylation of the C-terminal tail might regulate or enhance the exchange activity of Pbl for Rac. The localization and function of Pbl depends on the PH domain and the C-terminal tail of Pbl. Both domains have distinct roles during Pbl function in mesoderm cell migration.

591.35

Germ lineage specification from a pluripotent primitive ectoderm-like substrate: a role for cell-cell contacts.

Hughes, James Nicholas

January 2008

During mammalian development a small number of pluripotent cells proliferate and differentiate to give rise to all the mature cell types of the organism. Among the earliest differentiation events is the process of gastrulation, in which pluripotent primitive ectoderm cells form the three germ lineages, mesoderm, ectoderm and endoderm under the control of complex signalling and environmental cues. This process can be modelled using embryonic stem cells, which have proven to respond to embryologically relevant signals during in vitro differentiation and promise to uncover additional insights into the process of germ lineage specification. This thesis describes the differentiation of mouse ES cells to committed cell types via a second intermediate population of pluripotent cells termed Early Primitive Ectoderm-Like (EPL) cells. The similarity of EPL cells to primitive ectoderm and the rapid acquisition of lineage specific markers and loss of pluripotent characteristics upon differentiation of EPL cells suggest they are an excellent model for the cells in the embryo that undergo germ lineage commitment. EPL cells can be differentiated as EPLEBs, which are highly enriched in mesodermal cell types and contain essentially no ectodermal derivatives and no visceral endoderm. Here it is shown that EPLEBs can be generated from EPL cells grown either adherently or in suspension culture provided the cells are reduced to a single cell suspension before reaggregation as EPLEBs. Since EPLEBs are a rich source of mesoderm and contain less non-mesodermal cell types than traditional ESEBs, they were assayed for definitive blood formation, however none was detected. Alternately, EPL cells can be differentiated in the presence of MEDII in aggregates termed EBMs, which are restricted to ectodermal cell fates. Here it is demonstrated that the switch from mesodermal to ectodermal differentiation observed in ELPEBs and EBMs relies on two variables; a mesoderm suppressing activity within MEDII and the pro-mesodermal activity of cell dissociation as undertaken during EPLEB formation. Evidence has been presented that interventions that modulate the epithelial identity of EPL cells are capable of influencing subsequent differentiation such that protection of the epithelial cell state favours ectoderm while disruption favours mesoderm. Staurosporine (SSP) is a kinase inhibitor that has been shown to induce an epithelial to mesenchymal transition in chick neural tube. Here it was added to EPL cells with the result that mesodermal differentiation was enhanced at the expense of ectoderm. DAPT is a potent inhibitor of ƴ-secretase, which cleaves a number of protein targets including the adherens junction component E-cadherin. Addition of DAPT to differentiating EPL cells has the opposite effect to SSP, with an increase in ectodermal differentiation at the expense of medoderm. It is proposed that DAPT is acting by preventing E-cadherin cleavage and thus stabilising the epithelial state. Modulation of epithelial contacts between pluripotent cells represents a novel way to control lineage induction and as such the incorporation of these findings into methodologies for directed differentiation in defined culture conditions is likely to provide improved outcomes in the production of desired cell types. / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2008

Cell behaviors driving convergence and extension of the dorsal mesoderm of zebrafish /

Glickman, Nathalia S.,

January 2000

Thesis (Ph. D.)--University of Oregon, 2000. / Typescript. Includes vita and abstract. Includes bibliographical references (leaves 106-112). Also available for download via the World Wide Web; free to University of Oregon users.

Does Exposure to Simulated Microgravity Affect Cranial Neural Crest-Derived Tissues in Danio rerio?

Edsall, Sara C.

23 August 2011

To determine whether exposure to simulated microgravity (SMG) affects cranial neural crest (CNC)-derived tissues, zebrafish embryos were exposed to SMG starting at one of three developmental stages corresponding to CNC migration. Juvenile and adult fish were analyzed after exposure to SMG using statistics and geometric morphometrics for changes in melanophore surface area and number, and changes in skull morphology. Analyses reveal an initial increase in the surface area of melanophores present on the dorsal view of the juvenile skull and a decrease in melanophore number over the period of a week. Additionally, buckling is observed in CNC-derived frontal bones in juvenile fish after exposure. The effects on the melanophores are transient and the effects on CNC-derived bones are short-term. Surprisingly, severe long-term effects occurred in mesoderm-derived bones, such as the parasphenoid. In summary, exposure to SMG affects both CNC- and mesoderm-derived tissues in the juvenile and adult zebrafish head.

zebrafish

microgravity

bone

neural crest

pigment

mesoderm

Segregating and Patterning Mesoderm from Endoderm Emerging Roles for Hedgehog and FoxA

Walton, Katherine Dempsey,

January 2007

Thesis (Ph. D.)--Duke University, 2007.

Positional cloning and functional analysis of the SF3B1 gene in zebrafish

An, Min.

January 2007

Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 118-137).

The characterization of novel fibroblast growth factor response genes in Xenopus laevis /

Winsor, Wendy,

Unknown Date

Thesis (M.Sc.)--Memorial University of Newfoundland, Faculty of Medicine, 1999. / Typescript. Bibliography: leaves 145-163.

Characterization of human mesoderm induction-early response 1 (hMI-ER1) as a nuclear hormone receptor cofactor /

Savicky, Marianne,

January 2004

Thesis (M.Sc.)--Memorial University of Newfoundland, 2004. / Restricted until October 2005. Bibliography: leaves 104-113.

Esophageal carcinogenesis: immortalization, transformation and epithelial-mesenchymal transition

Cheung, Pak-yan., 張柏欣.

January 2008

published_or_final_version / Anatomy / Doctoral / Doctor of Philosophy

Esophagus - Cancer - Molecular aspects.

Epithelium.

Mesenchyme.

Mesoderm.

Carcinogenesis.