Global ETD Search

461	Scanning electrochemical microscopy studies applied to biological systems Mauzeroll, Janine 28 August 2008 (has links) Not available / text Scanning electrochemical microscopy Biological transport, Active
462	FRET peptidyl sensors for the detection of metal ions White, Brianna Rose, 1981- 28 August 2008 (has links) This research focuses on developing selective FRET peptidyl metal ion sensors as a portable and less costly alterative to traditional atomic spectrometric techniques. Initially, a selective sensor for Cu²⁺ was developed that consisted of glycine and aspartic acid residues and the FRET pair tryptophan (donor) and dansyl (acceptor). Aspartic acid's affinity for hard acid metals and Cu²⁺'s preference for square planar coordination was used as the basis of design. Although the sensor was designed to utilize the signal enhancement capabilities of FRET, quenching of both fluorophores occurred and proved to be the most sensitive means of quantifying Cu²⁺ binding. Nonetheless, the sensor provided a selective and sensitive response to Cu²⁺ at pH 7.0. Another FRET peptide metal ion sensor was designed with the help of a biological starting point, the mercury binding protein MerP. A sensitive FRET enhancement or "turn on" response was observed for Hg²⁺, as well as Zn²⁺, Cd²⁺ and Ag²⁺ in pH 7.0 solution. While a selective response for only Hg²⁺ was the ultimate goal of this study, this sensor is still an improvement over current systems which utilize a quenching mechanism for Hg²⁺ detection. While the previous studies investigated these sensors in aqueous solutions, the end goal was to devise a sensor based on an immobilized peptide chelator with FRET capabilities. To this end, immobilized, fluorophore labeled peptide studies were then conducted on Tentagel resin using a visible region FRET pair. A flow injection fluorescence analysis system using the immobilized fluorophore labeled peptide as the ion exchange material was also designed, allowing for the efficient analysis of fluorescence solutions. In addition to the work conducted with FRET sensors, studies were also conducted using magnetic [gamma]-Fe₂O₃ nanoparticles with PLCys immobilized onto the surface. The [gamma]-Fe₂O₃ nanoparticles are ideal supports since they can be magnetically collected and have a very large surface area to mass ratio. Finally, a method was developed to quantitatively screen metals bound to single Tentagel beads with immobilized peptides using ETV-ICP-MS. This method is an improvement over existing methods because it is nondestructive and simultaneously provides the absolute content of all metals bound. Fluorescence microscopy Peptides Metal ions--Identification
463	Development and Application of Two-Photon Excitation Stimulated Emission Depletion Microscopy for Superresolution Fluorescence Imaging in Thick Tissue Takasaki, Kevin Takao 18 September 2013 (has links) Two-photon laser scanning microscopy (2PLSM) allows fluorescence imaging in thick biological samples where absorption and scattering typically degrade resolution and signal collection of 1-photon imaging approaches. The spatial resolution of conventional 2PLSM is limited by diffraction, and the near-infrared wavelengths used for excitation in 2PLSM preclude the accurate imaging of many small subcellular features of neurons. Stimulated emission depletion (STED) microscopy is a superresolution imaging modality which overcomes the resolution limit imposed by diffraction and allows fluorescence imaging of nanoscale features. In this thesis, I describe the development of 2PLSM combined with STED microscopy for superresolution fluorescence imaging of neurons embedded in thick tissue. Furthermore, I describe the application of this method to studying the biophysics connecting synaptic structure and function in dendritic spines. Biophysics Neurosciences Optics microscopy superresolution synapse
464	Development of combined scanning electrochemical optical microscopy with shear force feedback using a tuning fork and current feedback Lee, Young Mi 24 March 2011 (has links) Not available / text Electrochemistry Scanning probe microscopy Electrochemical analysis
465	Studies by electron microscopy on the rat bladder epithelium in experimental urolithiasis and hyperplasia Amanullah. January 1982 (has links) published_or_final_version / Medical Sciences / Master / Master of Medical Sciences Rats. Bladder - Calculi. Epithelium. Hyperplasia. Electron microscopy.
466	Scanning probe microscopy of porous silicon formation 余家訓, Yu, Ka-fan. January 1999 (has links) published_or_final_version / Chemistry / Master / Master of Philosophy Scanning tunneling microscopy. Porous silicon. Photoluminescence.
467	Determination of the architecture of ion channels by atomic force microscopy Stewart, Andrew Paul January 2013 (has links) No description available. 615.1 Ion channels ; Atomic force microscopy
468	Electron microscopy studies of photo-active TiO₂ nanostructures Divitini, Giorgio January 2013 (has links) No description available. 669
469	Real time transmission electron microscopy studies of silicon and germanium nanowire growth Gamalski, Andrew David January 2012 (has links) No description available. 620
470	Using a magnetic force microscope to design nanomagnetic systems Rawlings, Colin Donald January 2013 (has links) No description available. 620

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