• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 64
  • 15
  • 13
  • 10
  • 8
  • 8
  • 4
  • 2
  • 2
  • 2
  • 1
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 157
  • 28
  • 23
  • 14
  • 14
  • 13
  • 12
  • 11
  • 11
  • 10
  • 10
  • 9
  • 9
  • 8
  • 8
  • 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

A screen build software package

Owens, Carolyn. January 1980 (has links)
Thesis (M.S.)--Ohio University, August, 1980. / Title from PDF t.p.
2

Fluorescent sensors for the detection of analytes in solution

Best, Michael Douglas. January 2002 (has links) (PDF)
Thesis (Ph. D.)--University of Texas at Austin, 2002. / Vita. Includes bibliographical references. Available also from UMI Company.
3

Fluorescent sensors for the detection of analytes in solution

Best, Michael Douglas 28 August 2008 (has links)
Not available / text
4

A study of some energy dependent characteristics of X-ray screens used in diagnostic radiology : screen-film sensitivity, MTF and some related factors

Karlsson, Mikael January 1983 (has links)
Fluorescent x-ray screens are used in medical x-ray diagnostics to absorb x-ray photons and convert these x-ray photons to visible light. The light distribution from these screens are then registered on photographic film to give an x-ray image. Both the sensitivity and the resolution characteristics of these systems are dependent on the x-ray photon energy. To enable a study of these and some other energy dependent characteristics of x-ray screens a number of almost monoener-getic radiation sources were constructed, tested with regard to their purity and calibrated. Both film and a photo-multiplier tube were used as light detectors.The sensitivity of screens with three different screen phosphors were studied as a function of the photon energy and large variations in sensitivity was found for different photon energies and screen phosphors. The light from the screens has been compared to the absorbed energy in the screens and this comparison shows that the energy dependence of the screens can approximately be predicted by calculations of the absorbed energy, except at low photon energies where other effects like increased light absorption in the screens is present.The modulation transfer factor (MTF) was studied both experimentally and theoretically as a function of photon energy. Two effects were shown to influence the energy dependence of the MTF. At low energies an increased light diffusion will destroy the MTF and at energies above the K-edge of the high-Z elements in the screens the production and re-absorption of K-radiation will deteriorate the MTF.Both the energy dependence of the screen-film sensitivity and the MTF have been calculated for some normally used spectral distributions from x-ray tubes and significant changes due to choice of kV and filtration of the beam were found. Other effects such as the number of interacting photons in the screens per unit area, contribution of K-radiation from one screen to the other, and light contribution to the front emulsion of the film compared to the back emulsion have also been investigated as a function of photon energy.Optimization of x-ray systems and clinical routines to give the lowest possible radiation dose to the patient with an acceptable image quality is an important task to carry out. The energy dependent characteristi es of x-ray screens studied in this work is a lead in the optimizing of the system with regard to choice of x-ray screens, film and radiation quality. / digitalisering@umu
5

Using pooled CRISPR screens to study gene regulation.

López Zepeda, Lorena Sofía 18 August 2023 (has links)
Die Genregulation ist ein komplexer Prozess, bei dem Zellen die Menge der Genprodukte steuern, um ihre Identität auszubilden und auf Umweltveränderungen zu reagieren. Die CRISPR-Technologie hat genetische Screens revolutioniert und ermöglicht es, mehrere Transkripte gleichzeitig zu untersuchen. In dieser Arbeit werden die Vorteile und Herausforderungen gepoolter CRISPR-Screens zur Erforschung der Genregulation untersucht. Es wird ein CRISPR-ko-Screen in embryonalen Mausstammzellen (mESCs) beschrieben, der pluripotenzerhaltende Transkriptionsfaktoren identifiziert. Es zeigte sich, dass ein Screening mit einer kleinen Bibliothek den Großteil des biologischen Signals eines genomweiten Screens erfasst und die Identifizierung von Genkandidaten mit kleinen Effektgrößen verbessert. Nachfolgend wird CRISPTimeR, eine neue Methode für die Analyse von Zeitreihen von CRISPR-Screens, vorgestellt. Sie basiert auf gemischten linearen Modellen und ermöglicht es, Treffer zu identifizieren und gleichzeitig zeitlich zu klassifizieren. Als Nächstes wurde CRISPRi verwendet, um für die Pluripotenz von mESCs relevante lncRNAs zu untersuchen, was aufgrund ihrer schlechten Annotation und niedrigen Expressionsniveaus schwierig ist. Eine mögliche Lösung ist eine manuell verfeinerte Annotation von Transkriptionsstartstellen und kleinere Bibliotheks-Screens mit empfindlicherer phänotypischer Auslesung. Zudem wurde ein Sättigungsscreen genomischer Regionen rund um den PHOX2B-Lokus, zur Identifikation cis-regulierender Elemente, durchgeführt. Dabei wurden CRISPRa-reaktive Elemente identifiziert, die Gene in der PHOX2B-TAD regulieren, und mit diesen mittels Einzelzell RNA-seq in Verbindung gebracht. Zusammenfassend zeigt diese Arbeit den Wert gepoolter CRISPR-Screens für die Erforschung der Genregulation und Herausforderungen der Analyse nicht-kodierender Elemente. Zusätzlich beschreibt sie ein neues Tool für die Analyse von kodierenden und nicht-kodierenden CRISPR-Screens in Zeitreihen. / Gene regulation is a complex process in which cells control gene product levels to establish identity and respond to environmental changes. CRISPR technology has revolutionized genetic screening, enabling researchers to study multiple transcripts simultaneously. This thesis explores the advantages and challenges of using pooled CRISPR screens to study gene regulation. First, I describe a CRISPR-ko screen in mouse embryonic stem cells (mESCs) to identify transcription factors involved in pluripotency maintenance. I show that a small-library screen captures most of the biological signal observed in a genome-wide screen, and it improves the identification of candidate genes with small effect sizes. Next, introduce CRISPTimeR, a novel method for the analysis time-series CRISPR screens. CRISPTimeR is based on mixed linear models; it allows to use information from a time-series experiment to identify, and simultaneously perform temporal classification on, hits. Next, I use CRISPRi to study lncRNAs relevant to pluripotency in mESCs. Targeting lncRNAs poses challenges due to poor annotation and low expression levels. I suggest to address these issues by using a hand-refined annotation of transcription start sites and by designing small-library screens with more sensitive phenotypic readout. Finally, I describe a saturation screen targeting large genomic regions around the PHOX2B locus, to identify putative cis-regulatory elements. I identified CRISPRa responsive elements involved in regulating the expression of genes within the PHOX2B TAD, which were then matched with the genes they control using single-cell RNA-seq. Overall, in this thesis I demonstrate the value of CRISPR pooled screens for studying gene regulation, while highlighting the challenges associated with targeting non-coding elements and suggesting possible approaches to address these challenges. Moreover, I introduce a novel tool for the analysis of both coding and non-coding time-series CRISPR screens.
6

Temporary barriers reduce rubbernecking and external distraction on roadways

Colon, Nicholas 01 May 2013 (has links)
The purpose of the current study was to empirically examine the effects of accident scenes on eye movement as well as driving behavior. Fifty-four participants drove in a driving simulator wearing a head-mounted eye-tracker in three experimental drives, one of which had an accident scene. The participants were put into one of three different conditions (no barrier, partial barrier, or full barrier). The results showed significant main effects of distraction (accident vs. no accident) on dwell frequency and duration, average speed, and root mean square error of the steering wheel angle during the drive with the accident scenes. In addition, the results also showed significant interaction effects between distraction and type of barrier (no, partial, or full) on dwell frequency and duration. The full barrier condition had the biggest effect on decreasing dwell duration and frequency. The findings support the Salience Effort Expectancy Value (SEEV) model of attention and previous research stating objects high in salience attract attention (Wickens & Horrey, 2008; Itti & Koch, 2000). These findings also support previous research by Mayer, Caird, Milloy, Percival, & Ohlhauser (2010) stating that drivers drive in the safest manner (lowest passing speed) when an emergency vehicles are present with the emergency lights on. Temporary barriers could be used to help decrease the effects of rubbernecking on highways when an accident scene is present (Masinick & Teng, 2004; Potts, Harwood, Hutton, & Kinzel, 2010)
7

Influence of the semi-conducting screens on the wave propagation characteristics of medium voltage extruded cables

Mugala, Gavita January 2003 (has links)
No description available.
8

Development of a high throughput fluorescent screening assay for genetic recoding

Cardno, Tony Stuart, n/a January 2007 (has links)
The development of new drug therapies traditionally requires mass screening of thousands if not millions of substances to identify lead compounds. They are then further optimised to increase potency. The screening of the large pharmaceutical compound libraries can be incredibly expensive, with the industry responding by miniaturising the assays to smaller formats, enabling the compound screening to be automated and, importantly, eliminating assay reagents that are a major contributing cost for running large screens. A potential target for such an approach is the genetic recoding site of viruses like HIV-1 and SARS. They use programmed recoding of the genetic code to regulate the translation of necessary proteins required for viable virus production. For example HIV-1 uses a -1 frameshift mechanism to regulate the ratio of the Gag to the Pol proteins, crucial for viable virus formation. The study of recoding, including readthrough of premature termination codons have most recently used bicistronic reporters with different combinations of enzymes. The most widely used plasmid bicistronic reporter utilises a dual luciferase arrangement comprised of firefly luciferase and Renilla luciferase reporters flanking the DNA being studied. Both of the luciferase enzymatic reporters emit light in response to their respective substrates. The cost of these substrates is the major issue to using luciferase reporters for high throughput screening. My study aimed at designing and developing a bicistronic assay suitable for genetic recoding that was amenable to high throughput screening. The luciferase reporters were replaced with Green Fluorescent Protein (GFP) reporters that do not require the addition of substrates. The development of a dual GFP assay required the appropriate selection of GFP fluorophores, the best arrangement of the GFPs to maximise the ratio of relative fluorescence intensity signal to background, the optimisation of the cells and growth conditions, DNA transfection, plate reader selection, and optical filter sets. Cassettes encoding protein linkers were also incorporated into the design of the constructs to separate the fluorescent proteins spatially to facilitate unimpaired folding into their functional units within the fusion protein. The assay was further improved by moving from transient transfection to stably expressing cell lines. A viable assay was almost achieved for 96 (and 384) well plates with a Z� factor compatible with the assay being suitable for high throughput screening. The assay was used to test a small collection of compounds known to interact with the ribosome and compounds known in the literature to affect frameshifting. This proof of concept was important, since it showed that the assay, with the various modifications, optimisations and miniaturisation steps, still retained the capability of correctly measuring the -1 frameshifting efficiency at the HIV-1 recoding site, and recording compound-induced modulations to the frameshifting efficiency. The compounds cycloheximide and anisomycin, for example, were shown to decrease -1 frameshifting albeit at some expense to overall protein synthesis. The dual GFP assay was also shown to be able to measure accurately changes in the frameshift efficiency brought about by mutations to the frameshift element, and additionally, it would be suitable for the detection and study of compounds, like the recently reported PTC-124 (currently undergoing phase II clinical trial for Duchenne Muscular Dystrophy and cystic fibrosis) that increases readthrough of a UGA premature stop codon mutation. The dual GFP assay developed in this study is at most only 1/10th of the cost of a comparable dual luciferase assay, largely due to removal of assay substrates and transfection reagents. The assay has a robust Z� factor comparable to that of the dual luciferase assay, and would substantially decrease the costs of high throughput screening in situations where a bicistronic reporter is required. The HIV-1 frameshift element is such a site.
9

Design of TFT circuit and touchscreen electronics /

Ho, Tsz Kin. January 2009 (has links)
Includes bibliographical references.
10

Development of a high throughput fluorescent screening assay for genetic recoding

Cardno, Tony Stuart, n/a January 2007 (has links)
The development of new drug therapies traditionally requires mass screening of thousands if not millions of substances to identify lead compounds. They are then further optimised to increase potency. The screening of the large pharmaceutical compound libraries can be incredibly expensive, with the industry responding by miniaturising the assays to smaller formats, enabling the compound screening to be automated and, importantly, eliminating assay reagents that are a major contributing cost for running large screens. A potential target for such an approach is the genetic recoding site of viruses like HIV-1 and SARS. They use programmed recoding of the genetic code to regulate the translation of necessary proteins required for viable virus production. For example HIV-1 uses a -1 frameshift mechanism to regulate the ratio of the Gag to the Pol proteins, crucial for viable virus formation. The study of recoding, including readthrough of premature termination codons have most recently used bicistronic reporters with different combinations of enzymes. The most widely used plasmid bicistronic reporter utilises a dual luciferase arrangement comprised of firefly luciferase and Renilla luciferase reporters flanking the DNA being studied. Both of the luciferase enzymatic reporters emit light in response to their respective substrates. The cost of these substrates is the major issue to using luciferase reporters for high throughput screening. My study aimed at designing and developing a bicistronic assay suitable for genetic recoding that was amenable to high throughput screening. The luciferase reporters were replaced with Green Fluorescent Protein (GFP) reporters that do not require the addition of substrates. The development of a dual GFP assay required the appropriate selection of GFP fluorophores, the best arrangement of the GFPs to maximise the ratio of relative fluorescence intensity signal to background, the optimisation of the cells and growth conditions, DNA transfection, plate reader selection, and optical filter sets. Cassettes encoding protein linkers were also incorporated into the design of the constructs to separate the fluorescent proteins spatially to facilitate unimpaired folding into their functional units within the fusion protein. The assay was further improved by moving from transient transfection to stably expressing cell lines. A viable assay was almost achieved for 96 (and 384) well plates with a Z� factor compatible with the assay being suitable for high throughput screening. The assay was used to test a small collection of compounds known to interact with the ribosome and compounds known in the literature to affect frameshifting. This proof of concept was important, since it showed that the assay, with the various modifications, optimisations and miniaturisation steps, still retained the capability of correctly measuring the -1 frameshifting efficiency at the HIV-1 recoding site, and recording compound-induced modulations to the frameshifting efficiency. The compounds cycloheximide and anisomycin, for example, were shown to decrease -1 frameshifting albeit at some expense to overall protein synthesis. The dual GFP assay was also shown to be able to measure accurately changes in the frameshift efficiency brought about by mutations to the frameshift element, and additionally, it would be suitable for the detection and study of compounds, like the recently reported PTC-124 (currently undergoing phase II clinical trial for Duchenne Muscular Dystrophy and cystic fibrosis) that increases readthrough of a UGA premature stop codon mutation. The dual GFP assay developed in this study is at most only 1/10th of the cost of a comparable dual luciferase assay, largely due to removal of assay substrates and transfection reagents. The assay has a robust Z� factor comparable to that of the dual luciferase assay, and would substantially decrease the costs of high throughput screening in situations where a bicistronic reporter is required. The HIV-1 frameshift element is such a site.

Page generated in 0.038 seconds