• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 504
  • 90
  • 63
  • 54
  • 30
  • 17
  • 6
  • 5
  • 2
  • 2
  • 2
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 934
  • 198
  • 140
  • 105
  • 95
  • 93
  • 84
  • 84
  • 77
  • 74
  • 69
  • 69
  • 58
  • 58
  • 57
  • 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.
111

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

Edsall, Sara C. 23 August 2011 (has links)
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.
112

USING THE ZEBRAFISH MODEL TO DETERMINE THE ROLE OF THE HACE1 TUMOUR SUPPRESSOR IN NORMAL DEVELOPMENT AND TUMOURIGENESIS

McDonald, Lindsay 27 June 2011 (has links)
HACE1 is a tumour suppressor gene located at human chromosome 6q21. HACE1 is downregulated in Wilms’ tumour as well as several other human cancers. Its role in normal development remains unknown. The zebrafish has established itself as a robust model for studying vertebrate development and human cancers. A zebrafish hace1 homologue has been identified. Whole mount in situ hybridization (WISH) assays and colocalization studies demonstrate conserved hace1 expression. Moreover, morpholino knockdown of hace1 reveals perturbed cardiac development and function. Transgenic zebrafish harboring either wild type or dominant negative mutated C876S (C876S DN) human HACE1 genes have been generated. DN zebrafish display increased apoptosis, both untreated and following irradiation-induced cellular damage. There was no difference in cell cycle progression between wild type embryos and C876S DN. Further characterization of the HACE1 transgenic zebrafish model will serve to better our understanding of the role of human HACE1 in normal development and tumourigenesis.
113

Developmental Plasticity of the Cellular Hypoxia Response in Zebrafish, Danio rerio

Robertson, Cayleih 05 December 2012 (has links)
In most organisms the cellular response to hypoxia is mediated by the master regulator hypoxia-inducible factor-1 (HIF-1). Zebrafish embryos can also arrest development (suspended animation) to tolerate low oxygen. I tested the hypothesis that induction of HIF-1 and associated target genes (eg. erythropoietin) during embryonic development would alter the hypoxia tolerance phenotype of larval and adult fish. I exposed zebrafish embryos at 3 developmental stages to acute (4 h) bouts of hypoxia (5% dissolved oxygen, DO) or anoxia (<0.5% DO). I found that embryos that mount a HIF-1 response have a greater hypoxia tolerance as larvae. Additionally, populations that experienced embryonic HIF-1 induction show an increase in the proportion of males (~70% male), that are more hypoxia tolerant than female fish, compared to control populations (~45% male). Overall, induction of HIF-1 during ontogeny alters the larval and adult zebrafish phenotype to better tolerate future hypoxic bouts. / NSERC
114

Using zebrafish to develop a precise model of cone photoreceptor ablation and regeneration

Fraser, Irene Brittany Morgan Unknown Date
No description available.
115

Zic transcription factors regulate retinoic acid metabolism during zebrafish neural development

Drummond, Danna L Unknown Date
No description available.
116

Novel roles for zebrafish Sfrp1a and Sfrp5 in neural retina patterning

Holly, Vanessa L Unknown Date
No description available.
117

Comparison of the acute effects of benzo[a]pyrene on cardiorespiratory function and fitness in adult zebrafish (Danio rerio) following i.p. injection or aqueous exposure

2015 May 1900 (has links)
Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous environmental contaminants. There are numerous studies reporting developmental cardiac toxicity in multiple fish species due to PAH exposure. However, there are relatively few instances where the effects of acute PAH exposure in adult fish have been characterized. Furthermore, the majority of experiments comparing PAH toxicity with exposure route in adult fish focus on CYP1A gene expression or enzyme activity, while there is a lack of information about the possible pathophysiological effects. Therefore, the overall objective of this thesis was to characterize the sublethal effects of benzo[a]pyrene (BaP), a prototypical PAH, on adult zebrafish (Danio rerio) cardiorespiratory function and fitness following acute exposure by two different routes. In the first experiment, adult zebrafish were intraperitoneally (i.p.) injected twice (one injection/24 hr) with increasing concentrations of BaP (0.1, 10, and 1000 μg/kg) and compared to corresponding dimethylsulfoxide (DMSO) controls. In a second set of experiments, adult zebrafish were aqueously exposed to BaP (static, renewal at 24 hr; 16.2 and 162 μg/L) and compared to DMSO controls. Following 48 hr exposure, one group of fish (n=10/treatment group) were subjected to swimming performance tests to assess critical swimming speed (Ucrit), oxygen consumption rate (MO2), cost of transport (COT), standard metabolic rate (SMR), active metabolic rate (AMR), and factorial aerobic scope (F-AS). Another group of fish (n=12/treatment group) were subjected to echocardiography following 48 hr BaP exposure to evaluate cardiac function. Following echocardiography analysis, samples were collected for parent compound (BaP) body burden and CYP1A mRNA induction analysis. 48 hr BaP injection resulted in significant sublethal effects on adult zebrafish cardiorespiratory function. Oxygen consumption (MO2) was increased at three swimming speeds in injected BaP groups compared to control. In contrast, aqueously BaP-exposed fish showed increased MO2 only at the single lowest swim speed. COT was also similarly increased for both exposure routes. SMR was elevated with both exposure routes, while AMR remained unchanged. This resulted in a significant decrease in F-AS for all treatment groups compared to corresponding controls with both exposure routes. Cardiac function was significantly affected by both routes of BaP exposure. Ventricular heart rate was significantly decreased in BaP-exposed fish, both injected and aqueously-exposed. However, stroke volume was decreased only in fish aqueously exposed to BaP, which resulted in significantly reduced cardiac output with that exposure route. In contrast, the ratio of atrial to ventricular heart rate (AV ratio) was increased only in fish i.p. injected with BaP, indicating the possibility of cardiac arrhythmias occurring. Analysis of BaP body burdens in fish tissue allowed for identification of an overlapping dose group between exposure routes, through which comparisons of cardiotoxicity were then made. This comparison revealed slight differences in cardiotoxicity between exposure routes. BaP-injected fish suffered from more severe bradycardia than aqueously exposed fish. Furthermore, cytochrome P4501A (CYP1A) mRNA levels in liver and heart tissue showed more significant increases in injected fish, while skeletal muscle CYP1A was increased only following aqueous exposure. In conclusion, acute BaP exposure caused metabolic alterations and impaired cardiorespiratory function in adult zebrafish regardless of exposure route. Interestingly, the primary mechanism behind these effects appeared to differ slightly with exposure route. These results suggest that acute BaP exposure may have negative effects on adult fish survivability in the environment. Overall, this work provides valuable insight into the pathophysiogical consequences of acute PAH exposure in adult stage fish.
118

Methods for 2D and 3D Quantitative Microscopy of Biological Samples

Allalou, Amin January 2011 (has links)
New microscopy techniques are continuously developed, resulting in more rapid acquisition of large amounts of data. Manual analysis of such data is extremely time-consuming and many features are difficult to quantify without the aid of a computer. But with automated image analysis biologists can extract quantitative measurements and increases throughput significantly, which becomes particularly important in high-throughput screening (HTS). This thesis addresses automation of traditional analysis of cell data as well as automation of both image capture and analysis in zebrafish high-throughput screening.  It is common in microscopy images to stain the nuclei in the cells, and to label the DNA and proteins in different ways. Padlock-probing and proximity ligation are highly specific detection methods that  produce point-like signals within the cells. Accurate signal detection and segmentation is often a key step in analysis of these types of images. Cells in a sample will always show some degree of variation in DNA and protein expression and to quantify these variations each cell has to be analyzed individually. This thesis presents development and evaluation of single cell analysis on a range of different types of image data. In addition, we present a novel method for signal detection in three dimensions.  HTS systems often use a combination of microscopy and image analysis to analyze cell-based samples. However, many diseases and biological pathways can be better studied in whole animals, particularly those that involve organ systems and multi-cellular interactions. The zebrafish is a widely-used vertebrate model of human organ function and development. Our collaborators have developed a high-throughput platform for cellular-resolution in vivo chemical and genetic screens on zebrafish larvae. This thesis presents improvements to the system, including accurate positioning of the fish which incorporates methods for detecting regions of interest, making the system fully automatic. Furthermore, the thesis describes a novel high-throughput tomography system for screening live zebrafish in both fluorescence and bright field microscopy. This 3D imaging approach combined with automatic quantification of morphological changes enables previously intractable high-throughput screening of vertebrate model organisms.
119

Dynamin is Required for the Maintenance of Enveloping Layer Integrity and Epiboly Progression in the Zebrafish Embryo

Lepage, Stephanie E 19 June 2014 (has links)
During early development, a series of regulated cell movements is required to set up the adult body plan of an organism. Collectively referred to as gastrulation, these coordinated cell movements organize the germ layers and establish the major body axes of the embryo. One such coordinated cell movement, epiboly, describes the thinning and spreading of a multilayered cell sheet to cover the embryo during gastrulation. The zebrafish embryo has emerged as a vital model system to study the cellular and molecular mechanisms that drive epiboly. In the zebrafish, the blastoderm undergoes epiboly to engulf the yolk cell and close the blastopore at the vegetal pole. This is achieved through the coordinated movement of the deep cells, which make up the embryo proper, and two extra-embryonic tissues, the enveloping layer and yolk syncytial layer. Epiboly is essential to the development of most organisms; however, the cellular and molecular mechanisms driving epiboly are poorly understood. Here I report the findings of two distinct projects which addressed the cellular and molecular basis for epiboly in the zebrafish. One cellular mechanism thought to be involved in driving epiboly is the removal of yolk cell membrane ahead of the advancing blastoderm margin. Using a combination of drug- and dominant-negative based approaches to inhibit Dynamin, a key component of the endocytic machinery, I demonstrated that marginal yolk cell endocytosis is dispensable for the successful completion of epiboly. Instead, I found that Dynamin primarily acts in the blastoderm where it maintains integrity of the enveloping layer (EVL) during epiboly. Dynamin maintains EVL integrity through regulation of the Ezrin/Radixin/Moesin (ERM) family of proteins and the activity of the small GTPase Rho A. With the goal of identifying genes involved in regulating epiboly, I characterized the calpain family of calcium-dependent cysteine proteases in the zebrafish and examined the developmental expression patterns of these genes. My study provided insight into the evolution of this large gene family. Furthermore, I found that most members of this family are expressed in the early embryo, suggesting that they may play a role in regulating early developmental processes such as epiboly.
120

Satellite cell activation in adult zebrafish (Danio rerio) single muscle fibre cultures

Zhang, Helia (Haoyue) 30 July 2013 (has links)
Satellite cells (SCs) are muscle stem cells that stay in a metabolically and mitotically quiescent state in adult skeletal muscle until activated. In mammals, SCs are activated and enter into the cell cycle for growth and regeneration. The mechanism initiating SC activation in vivo and in vitro, mediated by nitric oxide (NO) and hepatocyte growth factor (HGF) is described in the mouse model, but not in other species. Here, we assessed SC activation by counting bromodeoxyuridine (BrdU)-immuno-positive cells, and found that SC activation in zebrafish single muscle-fibre cultures is also NO and HGF dependent, peaking at 1 mM isosorbide dinitrate (ISDN, an NO donor drug) and 10 ng/mL HGF respectively, using dose-response experiments. Moreover, HGF signalling via the c-Met receptor is involved in the SC activation pathway and is considerably affected by temperature (i.e., 21 °C). Overall, understanding NO-HGF-c-Met signalling in SC activation gives new insights on fish muscle growth and conservation of regulatory pathways between species.

Page generated in 0.0433 seconds