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Identification of non-essential host genes required for PrP106-126 mediated neurotoxicityStobart, Michael 31 August 2011 (has links)
Prion diseases are invariably fatal proteinaceous neurodegenerative disorders of the central nervous system. The infectious agent is the host encoded prion protein which has undergone a post-translational refolding from a predominantly alpha-helical to highly beta-sheet containing structure. The mechanism of prion-induced neurotoxicity remains elusive in large part due to the absence of a sufficiently neurotoxic cell culture assay. A modern technique for identifying previously unrecognized mediators of a biological pathway is to screen a commercially available library of gene silencing molecules targeting all known open reading frames. Synthetic gene silencing molecules, such as short hairpin RNA (shRNA), employ the endogenous gene silencing pathway to inhibit protein synthesis. To date, no publication has described the implementation of a large-scale library to screen for genetic mediators of prion neurotoxicity.
This project was aimed at developing a cell culture model of acute prion neurotoxicity and screening a library of shRNA molecules in order to identify previously unrecognized gene targets essential to prion-induced neurotoxicity. Using a fragment of the prion protein (PrP106-126 peptide) to mimic prion neurotoxicity, human neuroblastoma cells transduced with a retroviral shRNA library were screened for resistance. Involvement of a subset of library identified gene targets in prion disease was assessed in vivo by quantitative real-time PCR (qPCR) analysis. Validation of the protection conferred by reducing expression of a gene target of interest was accomplished using individual lentiviral vectors expressing shRNA.
Of the approximately 54,000 shRNA sequences screened, 80 different shRNA sequences recovered from neurotoxic prion peptide-resistant cells were considered to be of interest. Of these, 49 corresponding gene targets were assessed in vivo by qPCR with the majority demonstrating significant differential expression in brains of prion infected mice. Validation of the protection conferred from knockdown of two identified genes, abcb4 and ube2cbp, was completed. Knockdown of either gene imparted significant protection against prion-induced neurotoxicity, with qPCR analysis confirming significantly reduced mRNA transcript levels. Overall, the validity of the novel assay system developed has been demonstrated, and the first comprehensive list of gene candidates involved in mediating acute prion neurotoxicity has been determined.
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The Roles of Presenilin and FKBP14 in Drosophila Development and Notch Signallingvan de Hoef, Diana L. 26 February 2009 (has links)
The Roles of Presenilin and FKBP14 in Drosophila Development and Notch Signalling; Diana L. van de Hoef, Department of Molecular Genetics, University of Toronto, 2008.
The multimolecular gamma-secretase complex cleaves type 1 transmembrane proteins such as Notch and one of the genes targeted in Alzheimer’s disease known as APP. This complex comprises four components, known as anterior pharynx defective 1, presenilin enhancer 2, nicastrin and presenilin. Presenilin is an aspartyl protease that comprises the catalytic core of gamma-secretase, and mutated forms of presenilin cause early-onset familial Alzheimer’s disease. To further define the role of Drosophila Presenilin (Psn), I performed a genetic modifier screen to identify Psn-interacting genes. One of the genes that was identified, known as FKBP14, encodes a peptidyl-prolyl isomerase that may be involved in protein folding in the ER. I demonstrate that an immunosuppressant drug known as FK506, which binds FKBPs and abrogates their function, reduced Psn, anterior pharynx defective 1 and presenilin enhancer 2 protein levels in vivo. I also show that FKBP14 colocalized with anterior pharynx defective 1 and Psn in the ER, suggesting a role in gamma-secretase stability. Consistent with this, I demonstrate that FKBP14 binds with Psn and mediates Psn stability and Notch signalling in vivo.
To further characterize the role of FKBP14 in development, I analyzed its expression pattern and phenotypes of an FKBP14 null mutant. I show that FKBP14 localized to embryonic hemocytes and larval tissues, in addition to being expressed in developing egg chambers. FKBP14 function is required during development, since FKBP14 null mutants are recessive lethal. These mutants exhibited defects in larval disc development that resulted in eye, wing and notum phenotypes reminiscent of Psn dominant-negative and Notch-dependent phenotypes. Furthermore, FKBP14 mutants displayed enhanced apoptosis in larval tissues, suggesting a possible involvement in apoptosis regulation. I then examined the effects of FKBP14 overexpression, and observed enhanced Psn protein levels in vivo. Interestingly, co-expression of FKBP14 and Psn resulted in synergistic bristle phenotypes, suggesting a role for FKBP14 function in the Notch signalling pathway. Consistent with this, FKBP14 mutants enhanced Notch loss-of-function phenotypes in the wing. Altogether, my data demonstrate an essential role for FKBP14 during development, particularly in Psn protein maintenance and Notch signalling.
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Insight on the effect of contour height in pressure screeningBiniaris, Andreas 05 1900 (has links)
The main purpose of this study was to determine the effect of contour height on the passage ratio of pulp through screen apertures, and determine which operating variable has the greatest affect on screen performance. In addition, a freeness model was to be developed, in hopes of helping to predict the freeness drop between feed and accepts.
The study was conducted at The University of British Columbia (UBC) using a laboratory scale pressure screen. Slot velocity, feed consistency and contour height were the changing variables. Samples were collected from which passage ratio, freeness, fibre length and coarseness were determined.
From the studies conducted it was found that slot velocity had the greatest influence on the screen operation. As the slot velocity increased a greater force was applied to the fibre to help push it through the screen aperture. However, this increase in slot velocity decreases the fractionation ability (separation of fibres into different lengths) of the screen.
The second most important variable was the contour height. The main function of the contour height is to disrupt the flow of thick stock at the wall of the screen and allow for unhindered movement of fibre to the screen wall. The greater the contour height is, the greater the passage ratio (pulp fibre passing through screen). However, there is a decrease in fractionation.
The third most important factor was the feed consistency. At low feed consistencies there is less crowding in the screen. Less crowding leads to more loosely-formed flocs, which are easier for the contour height and the rotor to dissipate and thus leads to unhindered movement. Thicker feed stock has a negative effect on passage
A Freeness model was developed that showed that freeness had a power law relationship to passage ratio. The passage ratio was raised to a constant B, which is a function of the contour height and the feed consistency.
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Historical theory, popular culture and television dramaWarner, K. M. Unknown Date (has links)
No description available.
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A study of the influence of mesh on light reflection in exposure of photosensitive screen printing /Wheeler, Suzanne. January 1984 (has links)
Thesis (M.S.)--Rochester Institute of Technology, 1984. / Typescript. Includes bibliographical references (leaf 54).
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An investigation of the effects of image printing angle on resolution of fine detail screen printing /Feldman, Amy L. January 1984 (has links)
Thesis (M.S.)--Rochester Institute of Technology, 1984. / Typescript. Includes bibliographical references and appendices.
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Selected photo mechanical techniques as applied to screen printing in secondary art educationHunt, Thomas F., January 1976 (has links)
Thesis (M.A.)--University of Wisconsin--Madison. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaf 32).
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An investigation of amplitude & frequency modulated screening on dot gain and variability /Laughlin, Kelly. January 1994 (has links)
Thesis (M.S.)--Rochester Institute of Technology, 1994. / Typescript. Includes bibliographical references (leaves 52-54).
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The exploration of a presensitized screen process film for designing screen printed textilesMansfield, Patricia (Klein), January 1966 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1966. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.
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Genetic dissection of the exit of pluripotency in mouse embryonic stem cells by CRISPR-based screeningLi, Meng January 2018 (has links)
The ground state naive pluripotency is established in the epiblast of the blastocyst and can be captured by culturing mouse embryonic stem cells (mESCs) with MEK and GSK3 inhibitors (2i). The transcription network that maintains pluripotency has been extensively studied with the indispensable core factors being Oct4, Sox2 and Nanog, together with other ancillary factors reinforcing the network. However, how this network is dissolved at the onset of differentiation is still not fully understood. To identify genes required for differentiation in an unbiased fashion, I conducted a genome-wide CRISPR-Cas9-mediated screen in Rex1GFPd2 mESCs. This cell line expresses GFP specifically in the naive state and rapidly down-regulate upon differentiation. I differentiated mutagenised mESCs for two days and sorted mutants that kept higher GFP expression. gRNA representation was subsequently analysed by sequencing. I identified 563 and 8 genes whose mutants showed delayed and accelerated differentiation, respectively, at a false discovery rate (FDR) cutoff of 10%. The majority of the previously known genes were identified in my screen, suggesting faithful representation of genes regulating differentiation. Detailed screening result analysis revealed a comprehensive picture of pathways involved in the dissolution of naive pluripotency. Amongst the genes identified are 19 mTORC1 regulators and components of the mTORC2 complex. Deficiency in the TSC and GATOR complexes resulted in mTORC1 upregulation in consistent with previous studies. However, they showed opposite phenotype during ESC differentiation: TSC complex knockout cells showed delayed differentiation, whereas GATOR1 deficiency accelerated differentiation I found that the pattern of GSK3b phosphorylation is highly correlated with differentiation phenotype. I conclude that mTORC1 is involved in pluripotency maintenance and differentiation through cross-talk with the Wnt signalling pathway. My screen has demonstrated the power of CRISPR-Cas9-mediated screen and provided further insights in biological pathways involved in regulating differentiation. It would be interesting to explore the remaining unstudied genes for better understanding of the mechanisms underlying mESC differentiation.
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