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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

Erythroblastic Islands Foster Granulopoiesis in Parallel to Terminal Erythropoiesis

Romano, Laurel January 2022 (has links)
No description available.
2

Connectivity Analysis of Single-cell RNA-seq Derived Transcriptional Signatures

Mahi, Naim January 2020 (has links)
No description available.
3

Data Driven Approaches for Dissecting Tumor Heterogeneity

Durmaz, Arda 27 January 2023 (has links)
No description available.
4

A Journey Through the Developing Kidney:Analysis of normal and Hoxa9,10,11-/-Hoxd9,10,11-/- Mouse Models

Magella, Bliss 07 June 2018 (has links)
No description available.
5

Single-Cell Transcriptome Analysis of Olfactory Sensory Neurons

Chien, Ming-Shan January 2016 (has links)
<p>Olfactory sensory neurons (OSNs), which detect a myriad of odorants, are known to express one allele of one olfactory receptor (OR) gene (Olfr) from the largest gene family in the mammalian genome. The OSNs expressing the same OR project their axons to the main olfactory bulb where they converge to form glomeruli. This “One neuron-one receptor rule” makes the olfactory epithelium (OE), which consists of a vast number of OSNs expressing unique ORs, one of the most heterogeneous cell populations. However, the mechanism of how the single OR allele is chosen remains unclear along with the question of whether one OSN only expresses a single OR gene, a hypothesis that has not been rigorously verified while we performed the experiments. Moreover, failure of axonal targeting to single glomerulus was observed in MeCP2 deficient OSNs where delayed development was proposed as an explanation for the phenotype. How Mecp2 mutation caused this aberrant targeting is not entirely understood.</p><p>In this dissertation, we explored the transcriptomes of single and mature OSNs by single-cell RNA-Seq to reveal their heterogeneity and further studied the OR gene expression from these isolated OSNs. The singularity of sequenced OSNs was ensured by the observation of monoallelic expression of X-linked genes from the hybrid samples from crosses between mice of different strains where strain-specific polymorphisms could be used to track the allelic origins of SNP-containing reads. The clustering of expression profiles from triplicates that originated from the same cell assured that the transcriptomic identities of OSNs were maintained through the experimental process. The average gene expression profiles of sequenced OSNs correlated well to the conventional transcriptome data of FACS-sorted Omp-positive cells, and the top-ranked expression of OR was conceded in the single-OSN transcriptomes. While exploring cellular diversity, in addition to OR genes, we revealed nearly 200 differentially expressed genes among the sequenced OSNs in this study. Among the 36 sequenced OSNs, eight cells (22.2%) showed multiple OR gene expression and the presences of additional ORs were not restricted to the neighbor loci that shared the transcriptional effect of the primary OR expression, suggesting that the “One neuron-one receptor rule” might not be strictly true at the transcription level. All of the inferable ORs, including additional co-expressed ORs, were shown to be monoallelic. Our sequencing of 21 Mecp2308 mutant OSNs, of which 62% expressed more than one OR genes, and the expression levels of the additional ORs were significantly higher than those in the wild-type, suggested that MeCP2 plays a role in the regulation of singular OR gene expression. Dual label in situ hybridization along with the sequence data revealed that dorsal and ventral ORs were co-expressed in the same Mecp2 mutant OSN, further implying that MeCP2 might be involved in regulation of OR territories in the OE. Our results suggested a new role of MeCP2 in OR gene choice and ratified that this multiple-OR expression caused by Mecp2 mutation did not accompany delayed OSN development that has been observed in the previous studies on the Mecp2 mutants.</p> / Dissertation
6

Transcriptional and developmental consequences of aneuploidy during male meiosis

Ernst, Christina January 2018 (has links)
Eukaryotes have developed stringent regulatory mechanisms that control cell division and ensure proper chromosome segregation. Maintaining genome integrity is especially important during meiosis, the specialised cell division programme in the germline that generates haploid gametes. As these cells transmit genetic information to the next generation, the consequences of meiotic errors are not restricted to an organismal level, but can directly impact the fitness of the offspring. Mammals display a high degree of sexual dimorphism in meiosis with regard to the stringency of regulatory mechanisms. This manifests in a relatively high degree of maternally-derived aneuploidies due to weaker checkpoint control in females, whereas more rigorous checkpoints in males frequently perturb fertility. Mouse models of aneuploidy often exhibit complete male sterility and early germ cell arrest, preventing the study of aneuploidy during late and post-meiotic stages in males. In this thesis, we have used the trans-chromosomic mouse model, Tc1, which carries a single copy of human chromosome 21 (HsChr21) and show that, unlike other aneuploid mouse strains, the Tc1 mouse can successfully passage the exogenous human chromosome through male meiosis and generate aneuploid offspring. Our investigations have shown that the presence of the aneuploid human chromosome causes spermatogenic defects due to an arrest at the first meiotic division. Despite this impairment, we found an unexpectedly high number of aneuploid gametes in Tc1 males and the majority of males were able to produce aneuploid offspring, albeit at a lower frequency. Transmission of HsChr21 through the male germline was less efficient compared to female germline transmission, but allowed us to study the impact of male germline-associated chromatin remodelling on the transcriptional deployment of HsChr21 in the offspring. This revealed that, despite fundamentally different developmental dynamics, male- versus female-germline passage result in indistinguishable transcriptional and regulatory phenotypes. An important pathway in the male germline involves the expression of piRNAs, a class of small non-coding RNAs that are commonly found in the germline of animals where they defend cells against transposable elements. Profiling the expression of small RNAs in the Tc1 mouse showed that conserved human piRNA clusters can be successfully transcribed by the mouse piRNA machinery. In addition, we detected Tc1-specific piRNA sequences that were neither present in human nor mouse, mapping to a human-specific repeat element. In line with the previously observed activation of human-specific repeat elements in the Tc1 mouse, this suggests that novel transcripts arising from human repeats can trigger an adaptive piRNA response, thereby demonstrating the plasticity of this pathway to newly invading repeat elements. Transcriptional profiling of spermatogenic cell populations on a single-cell level allowed us to generate an atlas of gene expression over the course of spermatogenesis and dissect meiotic silencing dynamics in the presence of aneuploidy. Transcriptional silencing during meiosis occurs in response to unpaired chromosomes and, in male germ cells, affects the sex chromosomes due to their largely unpaired nature. We found that the presence of HsChr21 has no impact on the silencing of chromosome X, however, the two chromosomes display drastically different silencing patterns with HsChr21 showing a much weaker repression. Taken together, this study revealed a higher than expected tolerance for aneuploidy in the mouse male germline thus allowing the characterisation of meiotic checkpoint mechanisms, the meiotic silencing response to unpaired chromosomes as well as piRNA expression in the presence of an exogenous human chromosome.
7

Novel insights into megakaryopoiesis, thrombopoiesis and acute coronary thrombosis : transcriptome profiling of the haematopoietic stem cell, megakaryocyte and platelet

Choudry, Fizzah Aziz January 2018 (has links)
The aim of this project was to investigate the transcriptome of human haematopoietic stem cells (HSCs), megakaryocytes and platelets to gain insights into steady state and accelerated thrombopoiesis that occurs in states of haemostatic demand and in thrombosis by applying these findings to the pathological setting of acute coronary thrombosis. To investigate transcriptional heterogeneity within the human HSC population, single cell RNA sequencing was performed in human bone marrow HSCs. Transcriptionally distinct subpopulations were identified including two megakaryocyte biased subsets with potentially differing functional relevance. Both populations expressed megakaryocyte specific transcripts, one of which also co-expressed common myeloid and megakaryocyte-erythroid progenitor transcripts while the other did not. This study represents the first interrogation of the human bone marrow megakaryocyte transcriptome. Cells were collected from healthy human bone marrow and analysed by low input and single cell RNA sequencing. To identify novel drivers of megakaryocyte maturation, the human bone marrow megakaryocyte transcriptome was compared to that of megakaryocytes cultured from human CD34+ cells, a process known to generate immature megakaryocytes. Transcriptional signatures associated with increasing megakaryocyte ploidy were then investigated. Increasing megakaryocyte ploidy level was found to be associated with an upregulation of transcripts involved in translation and protein processing as well as expression of a number of transmembrane receptors which might have functional relevance. Finally, the pathological setting of acute coronary thrombosis was used as a model for accelerated thrombopoiesis. Megakaryocyte and platelet transcriptomes were compared between patients with acute myocardial infarction (AMI) as well as severe coronary disease and a control group. The transcriptional signature relating to disease compared to control in megakaryocytes included upregulation of platelet activation related transcripts in megakaryocytes isolated from patients with AMI and severe coronary artery disease.
8

Unraveling the Secrets of Kidney Disease: Novel Molecular Mechanisms of Acute and Chronic Kidney Injury

Rudomanova, Valeriia 05 October 2021 (has links)
No description available.
9

Repurposing Single Cell RNA-Sequencing Data for Alternative Polyadenylation Analysis

Sona, Surbhi 26 May 2023 (has links)
No description available.
10

Transcriptome-Wide Study of Transcriptional Kinetics in Human Cells

Jin, Bowen 26 May 2023 (has links)
No description available.

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