Global ETD Search

81	Biophysical studies of membrane interacting peptides derived from viral and Prion proteins Oglęcka, Kamila January 2007 (has links) <p>This thesis focuses on peptides derived from the Prion, Doppel and Influenza haemagglutinin proteins in the context of bilayer interactions with model membranes and live cells. The studies involve spectroscopic techniques like fluorescence, fluorescence correlation spectroscopy (FCS), circular and linear dichroism (CD and LD), confocal fluorescence microscopy and NMR.</p><p>The peptides derived from the Prion and Doppel proteins combined with their subsequent nuclear localization-like sequences, makes them resemble cell-penetrating peptides (CPPs). mPrPp(1-28), corresponding to the first 28 amino acids of the mouse PrP, was shown to translocate across cell membranes, concomitantly causing cell toxicity. Its bovine counterpart bPrPp(1-30) was demonstrated to enter live cells, with and without cargo, mainly via macropinocytosis. The mPrPp(23-50) peptide sequence overlaps with mPrPp(1-28) sharing the KKRPKP sequence believed to encompass the driving force behind translocation. mPrPp(23-50) was however found unable to cross over cell membranes and had virtually no perturbing effects on membranes.</p><p>mDplp(1-30), corresponding of the first 30 N-terminal amino acids of the Doppel protein, was demonstrated to be almost as membrane perturbing as melittin. NMR experiments in bicelles implied a transmembrane configuration of its alpha-helix, which was corroborated by LD in vesicle bilayers. The positioning of the induced alpha-helix in transportan was found to be more parallel to the bilayer surface in the same model system.</p><p>Positioning of the native Influenza derived fusion peptide in bilayers showed no pH dependence. The glutamic acid enriched variant however, changed its insertion angle from 70 deg to a magic angle alignment relative the membrane normal upon a pH drop from 7.4 to 5.0. Concomitantly, the alpha-helical content dramatically rose from 18% to 52% in partly anionic membranes, while the native peptide’s helicity increased only from 39% to 44% in the same conditions.</p> Prion peptides Doppel peptide Influenza fusion peptides peptide-membrane interactions translocation linear dichroism circular dichroism Biophysics Biofysik
82	Binding Studies of Near Infrared Cyanine Dyes with Human Serum Albumin and Poly-L-Lysine Using Optical Spectroscopy Methods Watson, Amy Dawn 07 January 2008 (has links) The sensitivity of biological studies performed between 190 and 650 nm is greatly reduced due to the autofluorescence of biomolecules and impurities in this region. Therefore, the enhanced signal-to-noise ratios encountered at longer wavelengths makes biological analysis within the near infrared (NIR) region from 650 nm to 1100 nm far more advantageous. This dissertation describes the noncovalent binding interactions of near-infrared (NIR) carbocyanine dyes with human serum albumin (HSA) and poly-L-lysine (PLL) using UV-Vis/NIR absorption spectroscopy, emission spectroscopy, circular dichroism (CD), and fluorescence detected circular dichroism (FDCD). The optical spectroscopy methods used in this work are described in detail in Chapter 1. The various applications of NIR dyes in protein analysis are introduced in Chapter 2. In general, the sensitivity of cyanines to the polarity of their local environment makes them quite suitable for protein labeling schemes. In aqueous media, cyanines have a high propensity for self-association. Yet in the hydrophobic binding sites of globular proteins, these aggregates often dissipate. Absorption and emission spectroscopy can be utilized to observe the differential spectral properties of monomer, intra-molecular and intermolecular aggregates. In Chapter 3, the photophysical properties of bis(cyanine) NIR dyes containing di-, tri-, and tetraethylene glycol linkers were each examined in the presence of HSA are discussed. Variations in chain length as well as probe flexibility were demonstrated through distinct differences in absorption and emission spectra. The observed changes in the spectral properties of the NIR dyes in the presence and absence of HSA were correlated to the physical parameters of the probes' local environment (i.e., protein binding sites and self-association). All three bis-cyanines examined exhibited enhanced fluorescence in the presence of HSA. The bis-cyanine dye containing the tri(ethylene glycol) spacer allowed for a complete overlap of the benzene rings, to form π-π interactions which were observed as intra-molecular H-aggregate bands. The dye exhibited no fluorescence in buffer, owing to the H-aggregation observed in the absorption data. In the presence of HSA, the intra-molecular dimers were disrupted and fluorescence was then detected. The "cut-on" fluorescence displayed by the dye in the presence of HSA made it ideal for noncovalent labeling applications. The utility of several NIR dyes for use as secondary structural probes was investigated in Chapter 4. NIR dyes were screened thoroughly using UV-Vis/NIR absorption spectroscopy dyes with spectral properties which were sensitive to protein secondary structure models of such as PLL in basic solution. Two NIR dyes were found to be quite sensitive to the structural features of uncharged α- and β-PLL. The chiral discrimination of these probes for basic protein secondary structures was also evaluated through CD measurements within the NIR probes' absorption bands. poly-L-lysine near infrared (NIR) Circular dichroism (CD) noncovalent labeling albumin cyanine dyes Chemistry
83	Electric Dichroism Spectroscopy in the Vacuum Ultraviolet Causley, Gary C. 05 1900 (has links) When a molecule, which possess a permanent dipole moment is exposed to an intense electric field, its absorption spectrum may be altered. These alterations are manifest as shifts in energy and as changes in band shape and intensity. The electric dichroism of absorption bands can be used to probe the excited state that is formed when a molecule undergoes a transition. The properties that may be investigated include transition polarization, excited state dipole moment and mean polarizability, and field-induced mixing of symmetrically equivalent excited states. The theoretical model and experimental devices that have been developed to determine these properties are presented and discussed. The data, taken in total, and its combination with other existing evidence, adds credence to the assignment of the second excited singlet of aldehydes and ketones to be extravalent, accompanied by relatively large delocalization of electronic charge, and polarized in-planiie and perpendicularly to the C-0 axis. altered absorption spectrums excited state chemistry dipole moment electric dichroism spectroscopy Dichroism. Absorption spectra. Excited state chemistry.
84	Biophysical studies of membrane interacting peptides derived from viral and Prion proteins Oglęcka, Kamila January 2007 (has links) This thesis focuses on peptides derived from the Prion, Doppel and Influenza haemagglutinin proteins in the context of bilayer interactions with model membranes and live cells. The studies involve spectroscopic techniques like fluorescence, fluorescence correlation spectroscopy (FCS), circular and linear dichroism (CD and LD), confocal fluorescence microscopy and NMR. The peptides derived from the Prion and Doppel proteins combined with their subsequent nuclear localization-like sequences, makes them resemble cell-penetrating peptides (CPPs). mPrPp(1-28), corresponding to the first 28 amino acids of the mouse PrP, was shown to translocate across cell membranes, concomitantly causing cell toxicity. Its bovine counterpart bPrPp(1-30) was demonstrated to enter live cells, with and without cargo, mainly via macropinocytosis. The mPrPp(23-50) peptide sequence overlaps with mPrPp(1-28) sharing the KKRPKP sequence believed to encompass the driving force behind translocation. mPrPp(23-50) was however found unable to cross over cell membranes and had virtually no perturbing effects on membranes. mDplp(1-30), corresponding of the first 30 N-terminal amino acids of the Doppel protein, was demonstrated to be almost as membrane perturbing as melittin. NMR experiments in bicelles implied a transmembrane configuration of its alpha-helix, which was corroborated by LD in vesicle bilayers. The positioning of the induced alpha-helix in transportan was found to be more parallel to the bilayer surface in the same model system. Positioning of the native Influenza derived fusion peptide in bilayers showed no pH dependence. The glutamic acid enriched variant however, changed its insertion angle from 70 deg to a magic angle alignment relative the membrane normal upon a pH drop from 7.4 to 5.0. Concomitantly, the alpha-helical content dramatically rose from 18% to 52% in partly anionic membranes, while the native peptide’s helicity increased only from 39% to 44% in the same conditions. Prion peptides Doppel peptide Influenza fusion peptides peptide-membrane interactions translocation linear dichroism circular dichroism Biophysics Biofysik
85	Advanced Quantum Mechanical Simulations of Circular Dichroism Spectra Pearce, Kirk C. 27 January 2022 (has links) In quantum chemistry, scientists aim to solve the time-independent Schrödinger equation by employing a variety of approximation techniques whose accuracy are typically inversely proportional to their computational cost. This problem is amplified when it comes to chiral molecules, whose stereochemical assignments and associated chiroptical properties can be incredibly sensitive to small changes in their three-dimensional structure, requiring highly accurate theoretical methods. On the other hand, due to the polynomial scaling with system size, it is sometimes impractical to apply such methods to chemical compounds of broad scientific interest, especially when a multitude of low-energy conformations have to be accounted for as well. As a result, the assignment of absolute configurations to chiral compounds remains a tedious task. However, the characterization of these compounds is something that many different scientists are significantly invested in. The ultimate goal, then, is twofold: to gain useful insight by utilizing the electronic structure methods at your disposal while simultaneously developing new approximation techniques that can be used to push the boundaries on what is currently capable in computational chemistry. Therefore, we start by applying widely accepted density functional theory methods to predict optical rotations and electronic circular dichroism for naturally occurring antiplasmodial and anticancer drug candidates. We find that by comparing the computational results directly with those obtained through experimental measurement, we can provide reliable absolute config- uraitonal assignments to a variety of chiral compounds with numerous stereogenic centers. We also present the first ever prediction of vibrational circular dichroism with second-order Møller-Plesset perturbation theory. This extension opens the door to systematically improvable correlated wave function methods that can be employed when density functional theory fails or when higher accuracy results are required. / Doctor of Philosophy / Theoretical chemistry aims to draw a line from a molecule's three-dimensional structure to a set of physical observables, allowing for the efficient prediction of such properties. One family of chemical compounds for which this task becomes increasingly difficult is known as chiral molecules. A chiral compound is defined as one that has a non-superimposable mirror image. The concept of chirality is most tangibly seen with a pair of human hands, which demonstrate this same mirror-like behavior. In the same way that a person has left and right hands, a three-dimensonal handedness can be used to characterize many compounds that are essential to life including enzymes, sugars, and proteins. Although procedures have been developed to consistently isolate pure samples of such compounds, the correct identification of each hand poses a much larger task and costs the global pharmaceutical industry tens to hundreds of millions of dollars every year. As such, gaining insight about these incredibly valuable compounds and their associated properties is a never ending goal for many scientists. One such way to gain insight is through the direct comparison of experimental and calculated properties, namely chiroptical properties. These unique properties define how chiral compounds interact with light. While experimental scientists are limited in the degree to which they can probe a molecule's structure, theoretical chemists have the advantage of knowing the exact three-dimensional structure for the compound they are studying. On the other hand, theoretical chemists rely on comparison to experimental results to develop new methods or apply the available techniques to predict molecular properties. This work begins by attempting to match calculated properties to experimentally measured ones in order to confirm the detailed molecular structure of natural product drug candidates. Through multiple such computational studies, it is shown that the current methods are sometimes limited in the knowledge that they can provide. As a result, it is absolutely necessary to continue to improve on the existing methods. We go on to provide a first-of-its-kind implementation that allows for theoretical chemists to compare their results to experiment in a way that was not previously possible. Electronic Structure Theory Chirality Chiroptical Properties Response Theory Optical Rotation Electronic Circular Dichroism Vibrational Circular Dichroism Møller-Plesset Perturbation Theory
86	Magnetický cirkulární dichroismus a aromatické sloučeniny / Magnetic circular dichroism and aromatic compounds Štěpánek, Petr January 2015 (has links) Title: Magnetic circular dichroism and aromatic compounds Author: Petr Štěpánek Department/Institute: Institute of Organic Chemistry and Biochemistry AS CR, v.v.i. Supervisor: prof. RNDr. Petr Bouř, DSc., Institute of Organic Chemistry and Biochemistry AS CR, v.v.i. Abstract: The thesis presents a series of studies concerning magnetic circular dichroism (MCD), a spectroscopic method, which experienced an intense theo- retical development in the recent years. New computational codes opened possi- bilities to calculate MCD spectra of larger and more varied molecules than was possible in the past. In the presented studies, we took the advantage of the new computational codes to broaden the possible span of applications of the MCD technique. As an example, we present MCD as a method useful for obtaining information about the structure of fullerenes. We also studied the influence of the molecular conformation and the explicit and implicit solvent models on the MCD spectra of aromatic amino acids using the newly implemented alterna- tive computational protocol based on sum-over-states calculations. We have also theoretically predicted spectra of the nuclear spin circular dichroism (NSCD), a potential new high-resolution spectroscopy. Keywords: magnetic circular dichroism, quantum-chemical calculations, density...
87	Characterization of Inosine triphosphate pyrophosphatase, an important protein involved in purine metabolism Björklund, Sam January 2015 (has links) The enzyme inosine triphosphate pyrophosphatase (ITPase) is responsible for controlling the levels of the by-products guanosine monophosphate (GMP) and adenosine monophosphate (AMP) through their precursor inosine monophosphate (IMP). ). Human ITPase consists of a 194-amino acid homodimer which relies upon either an Mg2+ ion or a Mn2+ ion for catalytic activity, and orthologs of this protein have been found in many different organisms. The purpose of this project was to try out methods learned throughout the education and to use this knowledge to gather new data about the human protein inosine triphosphate pyrophosphatase (ITPase). The protein was expressed in BL21/DE3 cells from a pre-made vector. Experiments performed during this project include secondary- and tertiary stability measurements, tryptophan fluorescence spectra, binding curve and thermic stability to ITPase with ANS and methotrexate. The Tm-value of human ITPase was examined with Trp-Fluorescence, ANS-fluorescence and Near-UV and Far-UV circular dichroism (CD). The stability of ITPase monitored by Near-UV as well as Far-UV coincides, indicating that secondary- and tertiary-unfolding occur simultaneously without any intermediates. The results of Trp-fluorescence showed that the tryptophans were already exposed and thus it did not yield a reliable result. The binding properties of ANS and MTX to ITPase were also examined. Inosine triphosphate pyrophosphatase acute lymfoblastic leukemia circular dichroism fluorescence methotrexate protein stability
88	Study of magnetic anisotropy by Magnetic Circular X-ray Dichroism Short, Geoffrey January 2000 (has links) No description available. 530.41
89	INFRARED DIAGNOSTICS ON MICRO AND NANO SCALE STRUCTURES Titus, Jitto 15 December 2016 (has links) Fourier Transform Infrared spectroscopy is used as a diagnostic tool in biological and physical sciences by characterizing the samples based on infrared light-matter interaction. In the case of biological samples, Activation of Jurkat T-cells in culture following treatment with anti-CD3 (Cluster of Differentiation 3) antibody is detectable by interrogating the treated T-cells using the Attenuated Total Reflection - Fourier Transform Infrared (ATR-FTIR) Spectroscopy technique. Cell activation was detected within 75 minutes after the cells encountered specific immunoglobulin molecules. Spectral markers noted following ligation of the CD3 receptor with anti CD3 antibody provides proof-of-concept that ATR-FTIR spectroscopy is a sensitive measure of molecular events subsequent to cells interacting with anti-CD3 Immunoglobulin G (IgG). ATR-FTIR spectroscopy is also used to screen for Colitis in chronic (Interleukin 10 knockout) and acute (Dextran Sodium Sulphate-induced) models. Arthritis (Collagen Antibody Induced Arthritis) and metabolic syndrome (Toll like receptor 5 knockout) models are also tested as controls. The marker identified as mannose uniquely screens and distinguishes the colitic from the non-colitic samples and the controls. The reference or the baseline spectrum could be the pooled and averaged spectra of non-colitic samples or the subject’s previous sample spectrum. The circular dichroism of titanium-doped silver chiral nanorod arrays grown using the glancing angle deposition (GLAD) method is investigated in the visible and near infrared ranges using transmission ellipsometry and spectroscopy. The characteristics of these circular polarization effects are strongly influenced by the morphology of the deposited arrays. Studies of optical phonon modes in nearly defect-free GaN nanowires embedded with intrinsic InGaN quantum dots by using oblique angle transmission infrared spectroscopy is described here. These phonon modes are dependent on the nanowire fill-factor, doping densities of the nanowires and the presence of InGaN dots. These factors can be applied for potential phonon based photodetectors whose spectral responses can be tailored by varying a combination of these three parameters. The optical anisotropy along the growth (c-) axis of the GaN nanowire contributes to the polarization agility of such potential photodetectors. ATR-FTIR Infrared Spectroscopy Dichroism Photodetectors Colitis Serum Infection Infrared Diagnosis
90	Polarizace vakua v Coulombickém poli / Polarizace vakua v Coulombickém poli Šimsa, Daniel January 2013 (has links) In the present work the vacuum polarization and the circular dichroism of hydrogen-like atoms are studied. We derive equations for the Fourier transforma- tion of the vacuum expectation value of the charge density. We use it to derive Uehling potential and calculate energy shifts caused by it. Then we discuss effects of vacuum polarization in higher orders of α. In second part we define circular dichroism and we express it in terms of reduced matrix elements. Then we derive the formula for parity vilating potential which is generated by weak interaction and together with other results we use it to find the expression for circular dichro- ism in terms of hydrogen radial functions. 1

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