Global ETD Search

381	Selected Experiments with Proteins at Solid-Liquid Interfaces Teichroeb, Jonathan January 2008 (has links) This thesis describes a number of novel experiments contributing to the understanding of protein adsorption from both a fundamental and applied perspective. The first three papers involve the use of the localized surface plasmon resonance of gold nanospheres to measure protein conformational dependencies during heat and acid denaturation. Thermal denaturation of BSA is shown to proceed differently depending on the size of nanosphere to which it is conjugated. Activation energies are extracted for thermal denaturing on nanoparticles. These energies decrease with decreasing radius of curvature. Under pH perturbation in the acid region, the multiple transition states of bulk BSA are suppressed, and only one apparent transition around pH 4 is evident. Smaller spheres (diameter < 20nm) do not exhibit any transition. A significant finding of all three studies is that the state and stability of BSA depends strongly upon local curvature. The last two papers investigate protein adsorption relevant to the biomaterial field. Investigation of protein adsorption to polyHEMA hydrogels is carried out using a quartz crystal microbalance. Single and mixed protein adsorption kinetics for BSA, lysozyme and lactoferrin are extracted and interpreted. Selected commercial cleaning solutions are shown to be no more effective than simple buffer solution. Examination of commercial lenses indicates that the morphology of adsorption is material dependent and that siloxane-based hydrogels only deposit low levels of protein. A unique fibril-like morphology is identified on galyfilcon A. Protein morphology is discussed in terms of bare lens morphology, roughness, and surface composition. biophysics protein soft condensed matter biosensor biomaterial surface plasmon resonance contact lens biofouling adsorption hydrogel atomic force microscopy SPR quartz crystal microbalance nanosphere nanoparticle Mie Theory Physics
382	Characterization of the Ubc13-Mms2 Lysine-63-linked ubiquitin conjugating complex Pastushok, Landon Keith 01 May 2006 (has links) Ubiquitylation is an indispensable post-translational modification system in eukaryotic cells that leads to the covalent attachment of a small ubiquitin (Ub) protein onto a target. The traditional and best-characterized role for ubiquitylation is a fundamental regulatory mechanism whereby target proteins are tagged with a characteristic Lys48-linked Ub chain that signals for their elimination through proteasomal degradation. Challenging this conventional wisdom is the finding that some ubiquitylated proteins are modified by Ub chains linked through Lys63, providing a molecular signal that is thought to be structurally and functionally distinct from Lys48-linked Ub chains. Of further interest and significance is that the Lys63-linked Ub chains are apparently synthesized through a novel biochemical mechanism employing a unique complex formed between a true Ub conjugating enzyme (E2), Ubc13, and an E2-variant (Uev), Mms2 (or Uev1A). The goal of this thesis was to employ structural and functional approaches in order to better characterize the Ubc13-Mms2 Lys63-linked Ub conjugation complex. <p>Error-free DNA damage tolerance (DDT) in the budding yeast is dependent on Lys63-linked Ub chains synthesized by Ubc13-Mms2 and thus provided the opportunity to experimentally test the function of the human UBC13 and MMS2 genes in a simple model organism. Human UBC13 and MMS2 were each shown to function in place of their yeast counterparts and in accordance, human Ubc13 was shown to physically interact with yeast Mms2, and vice versa. Two human MMS2 homologs were also tested and it was determined that UEV1A but not UEV1B can function in place of mms2 in yeast DDT. Physical interactions were observed between Ubc13 and Uev1A, but not between Ubc13 and Uev1B, suggesting that Ubc13-Uev complex formation is required for function. <p>In collaboration with a research group at the University of Alberta, crystal structure and NMR data were used to develop a mechanistic model for the conjugation of Lys63-linked Ub chains by the Ubc13-Mms2 heterodimer, whereby the special orientation of two Ub molecules facilitates a specific Ub-Ub linkage via Lys63. In order to help support the in vitro model and to determine how the Ubc13-Mms2 structure relates to biological function, I used a structure-based approach to direct the creation of point mutations within four key regions of the Ubc13-Mms2 heterodimer; the Ubc13 active-site, the Ubc13-E3 (Ub ligating enzyme) interface, the Mms2-Ub interface, and the Ubc13-Mms2 interface. <p>Underscoring the importance of the Ub conjugation by Ubc13-Mms2, a Ubc13-C87S active-site mutation was created that could bind to Mms2 but was unable to function in DDT. Regarding the Ubc13-E3 interface, a single Ubc13-M64A point mutation had a potent effect on disrupting Ubc13 function in DDT, as well as its physical interaction with Rad5, TRAF6, and CHFR. The results suggest that different RING finger E3s use the same Ubc13 surface to sequester the Ub conjugation activity of Ubc13-Mms2. Two human Mms2 mutations at Ser32 and Ile62, which are contained within the Mms2-Ub interface, were found to reduce the ability of Mms2 to bind Ub. When the corresponding yeast mutations are combined, a synergistic loss in DDT function is observed. The relative orientation of Ser32 and Ile62 suggests that the Mms2 and Tsg101 Uev families use different Uev surfaces to physically interact with Ub. A 200 ìM dissociation constant for the wild-type Mms2-Ub interaction was also determined. The systematic mutagenesis and testing of 14 Ubc13-Mms2 interface residues led to mutants with partial or complete disruption of binding and function. Using this data, a model involving the insertion of a specific Mms2-Phe residue into a unique Ubc13 hydrophobic pocket was created to explain the specificity of Mms2 for Ubc13, and not other E2s. In addition, the dissociation constant for the wild-type Ubc13-Mms2 heterodimer was determined to be approximately 50 nM. <p>The structural and functional studies strongly support the notion that Ubc13-Mms2 complex has the unique ability to conjugate Lys63-linked Ub chains. However, several reported instances of Lys63-linked Ub chains in vivo have not yet been attributed to Ubc13 or Mms2. To address the disparity I was able to demonstrate and map a physical interaction between Mms2 and Rsp5, an E3 implicated in Lys63-linked Ub conjugation. Surprisingly, it was found that MMS2 is not responsible for the RSP5-dependent Lys63-linked Ub conjugation of a plasma membrane protein. A possible explanation for the apparent paradox is presented. cell signaling surface plasmon resonance yeast two-hybrid assay GST pulldown postreplication DNA repair endocytosis Lys63 ubiquitin chains rsp5 mms2 ubc13 molecular structure
383	Garlic (Allium Sativum) Agglutinin I: Specificity, Binding And Folding Mechanism Bachhawat, Kiran 11 1900 (has links) Lectins are a class of proteins that bind to carbohydrates with a high degree of specificity. They are involved in various cellular processes such as, host - pathogen interactions, targeting of proteins within cells, cell - cell interaction, cellular segregation and development. They serve as important tools for probing the carbohydrate structures in biological systems such as cell membranes and also as model systems for elucidating protein - carbohydrate interactions. Lectins are distributed ubiquitously in nature ranging from microorganisms to the plants and animals. Plant lectins are a group of proteins that according to a recently updated definition comprise all plant proteins possessing at least one non-catalytic domain that binds reversibly to specific mono- or oligosaccharide. The majority of all currently known plant lectins may be classified into four major groups - (1) Legume lectins, (2) Chitin-binding lectins, (3) Type 2 Ribosome inactivating proteins and the (4) Monocot mannose binding lectins. The monocot mannose binding lectins are an extended superfamily of structurally and evolutionarily related proteins. Till now these proteins have been isolated from the following families, namely, Amaryllidaceae, Affiaceae, Araceae, Orchidaceae, Iridaceae and Li/iaceae. They exhibit marked sequence homology and a unique specificity for mannose. At present there is a wide interest in the monocot mannose-binding lectins because of: (1) their exclusive specificity towards mannose, (2) their anti - retroviral activity and (3) their potent entomotoxic properties. Of particular interest are lectins from the bulbs of garlic (Allium sativum) and ramson (A. ursinum), which contain more than one type of lectin. The first report of the presence of lectins in the bulbs of garlic {Allium sativum agglutinin, ASA) was made by Van Damme et al in 1991. Bulbs of garlic are known to accumulate two types of mannose binding lectins, the heterodimeric, ASAI and the hornodimeric, ASAII. Though these two lectins differ in the lengths of their polypeptide chains, they exhibit marked similarities with respect to their primary sequence, post translational modifications, serological properties, immunochemical attributes as well as carbohydrate binding properties. This thesis describes the successful cloning of the ASAI gene from the garlic genomic DNA and expression of the functional recombinant protein in insect cell lines. ASAI was subsequently characterized for its carbohydrate binding specificity by means of a sensitive enzyme based assay. Finer insights into this sugar binding topology of ASAI for its complementary ligands was obtained from the surface plasmon resonance studies. Lastly, the folding behaviour as well as an estimate of its conformational stability was investigated by differential scanning calorimetric and equilibrium solution denaturation studies. Chapter 1 provides a comprehensive review on lectins pertaining to their definition, historical background, occurrence in nature, three dimensional structure and architecture, modes of bonding, biological functions and implications as well as their applications in biomedical research. Chapter 2 describes the isolation and purification of the heterodimeric lectin, ASAI in two steps using affinity chromatography followed by gel filtration chromatography from the bulbs of garlic. The purified ASAI was then characterized for their serological, physico- and immuno-chemical properties by means of capillary electrophoresis, hemagglutination activity and generation of antisera against ASAI in rabbits. Chapter 3 revolves around the cloning of the gene encoding ASAI by PCR amplification from garlic genomic DNA. The authenticity of the ASA gene was established by means of gene sequencing, which in turn provided us with the primary sequence of this lectin. With the ASAI clone established innumerable attempts, as highlighted in the chapter, were made to express the functional protein in bacteria. All attempts yielded pure recombinant garlic lectin with no detectable activity. This prompted us to shift our efforts into expression of the recombinant protein in the baculovirus expression system using the Sf21 insect cell lines and the Autographa californica nuclear polyhedrosis virus (AcNPV). The choice of this system proved beneficial as we obtained functional recombinant garlic lectin with its hemagglutinating activity comparable to the native protein. Chapter 4 highlights the design of an elegant coupled enzyme-based colorimetric assay (Enzyme Linked Lectin Adsorbent Assay) for elucidation of the carbohydrate binding specificity of ASAI. This expansive and extensive study involved the assay of a wide range of mannooligosaccharides in order to gain an insight into the sugar binding details of ASAI. ASAI recognizes monosaccharides in the mannosyl configuration. The potencies of the ligands for ASAI is shown to increase in the following order: Mannobiose < Mannotriose Mannopentaose Man9 oligosaccharide. Mannononase glycopeptide (Man9GlcNAc2Asn), the highest oligomer studied exhibited the greatest binding affinity suggesting ASAI to possess a preference for cluster of terminal αl-2-linked mannosyl residues at the non-reducing end. This kind of exquisite specificity is unique in the lectins described so far. Among the glycoproteins assayed, invertase, soyabean agglutinin and ovalbumin displayed high binding affinity. Chapter 5 unravels the fine specificity of the mannose containing carbohydrate moieties for binding to ASAI with emphasis on their kinetics of binding. This has been achieved by invoking the principle of surface plasmon resonance allowing measurement of bimolecular interactions in real time. This investigation corroborates our earlier study about the special preference of garlic lectin for terminal a α1-2 linked mannose residues. Increase in binding propensity can be directly correlated to the addition of αl-2 linked mannose to the mannooligosaccharide at its non-reducing end. An analyses of these data reveals that the α1-2 linked terminal mannose on the α1-6 arm to be the critical determinant in the recognition of mannooligosaccharides by the lectin. While kI increases progressively from Man3 to Man7 derivatives, and more dramatically so for Man8 and Man9 derivatives, k-1 decreases relatively much less gradually from Man3 to Man9 structures. An unprecedented increase in the association rate constant for interaction with ASAI with the structure of the oligosaccharide ligand constitutes a significant finding in protein-sugar recognition. Chapter 6 deals with the thermal unfolding of ASAI, characterized by differential scanning calorimetry and circular dichroism which shows it to be highly reversible and can be defined as a two-state process in which the folded dimer is converted directly to the unfolded monomers (A2 2U). Moreover, its conformational stability has been determined as a function of temperature; GdnCl concentration and pH using a combination of thermal and isothermal GdnCl induced unfolding monitored by DSC, far-UV CD and fluorescence, respectively. Analysis of these data yielded the heat capacity change upon unfolding (∆CP) as also the temperature dependence of the thermodynamic parameters, namely, ∆G, ∆H, ∆S. The protein appears to attain a completely unfolded state irrespective of the method of denaturation. The absence of any folding intermediates suggests the quaternary interactions to be the major contributor to the conformational stability of the protein, which correlates very well with its X-ray structure. The final chapter summarizes the findings reported in the thesis. Biochemistry Garlic Allium sativum Agglutinin (ASAI) Agglutinin Garlic Lectin Lectins ASAI Gene - Cloning Enzyme-linked Lectin Adsorbent Assay Surface Plasmon Resonance
384	Entwicklung eines optischen markierungsfreien Ionenkanalsensor-Arrays Zimmerer, Cordelia 24 October 2007 (has links) (PDF) Ligandgesteuerte Ionenkanäle sind Membranproteine, die an der Weiterleitung von Reizen und an der Kommunikation zwischen Zellen beteiligt sind. Große Bedeutung besitzt die Messung der Aktivierung der Ionenkanäle beispielsweise in der Medizin (z.B. Ionenkanalerkrankungen), der Pharmazie (z.B. Medikamenten-Screening) und in der Bionanotechnologie (z.B. molekulare Schalter). In all diesen Gebieten besteht die Forderung nach hohen Probendurchsätzen bei sehr hohem Informationsgehalt. Etablierte elektrochemische Detektionsmethoden erfüllen diese Forderung nicht. Um dieses Defizit zu überwinden, wurde ein Ionenkanalsensor-Array mit optischer, paralleler Detektion entwickelt. Eine mikrostrukturierte Polymethyl(meth)acrylat (PMMA)-Schicht dient als Grundgerüst des Arrays. Über die Mikroporen, die nur wenige Mikrometer Durchmesser aufweisen, wird eine Lipidmembran gespannt, in die Ionenkanäle eingebaut werden. Wird der Ionenkanal aktiviert, strömen Ionen in die Mikroporen und führen zu einer messbaren Veränderung des Brechungsindexes. Mittels Oberflächenplasmonen-Resonanz Imaging lässt sich die Aktivierung der Ionenkanäle markierungsfrei und direkt bestimmen. Stabile, die Mikrostruktur überspannende Lipidmembranen wurden durch eine neu entwickelte Stempeltechnik und durch eine Oberflächenmodifikation der PMMA-Mikrostruktur erzielt. Für die Charakterisierung und den Funktionsnachweis des Sensoraufbaus wurden das infrarot-spektroskopische Imaging und die Fluoreszenzmikroskopie eingesetzt. Schließlich konnte gezeigt werden, dass eine Verbesserung der Empfindlichkeit durch das lokale Aufkonzentrieren der durch den Ionenkanal geströmten Metallionen am Porengrund mit oberflächengebundener 2-(Benzylsulfid)-18-Krone-6 möglich ist. Ionenkanal SPR Imaging Oberflächenplasmonen-Resonanz Imaging Lipidmembran ion channel SPR imaging surface plasmon resonance imaging lipid membrane ddc:540 rvk:WE 5460
385	Infuence of Escherichia coli feedstock properties on the performance of primary protein purification Råvik, Mattias January 2006 (has links) <p>Abstract</p><p>The aim of the present study was to increase the understanding of how the cell surface properties affect the performance of unit operations used in primary protein purification. In particular, the purpose was to develop, set up and apply methods for studies of cell surface properties and cell interactions.</p><p>A method for microbial cell surface fingerprinting using surface plasmon resonance (SPR) is suggested. Four different <em>Escherichia coli </em>strains were used as model cells. Cell surface fingerprints were generated by registration of the interaction between the cells and four different surfaces, with different physical and chemical properties, when a cell suspension was flown over the surface. Significant differences in fingerprint pattern between some of the strains were observed. The physical properties of the cell surfaces were determined using microelectrophoresis, contact angle measurements and aqueous two-phase partitioning and were compared with the SPR fingerprints. The generated cell surface fingerprints and the physical property data were evaluated with multivariate data analysis that showed that the cells were separated into individual groups in a similar way using principal component analysis plots (PCA).</p><p>Studies of the behaviour of the model cells on stirred cell filtration and in an interaction test with different expanded bed adsorption (EBA) adsorbents were performed. It could be concluded that especially one of the strains behaved differently. Differences in the properties of the model cells were indicated by microelectrophoresis and aqueous two-phase partitioning which to some extent correlated with observed differences in behaviour during filtration and in an interaction test with EBA adsorbents.</p><p>The impact of high-pressure homogenisation of <em>E. coli </em>cell extract was examined, with a lab scale and a pilot scale technique. The DNA-fragmentation, visualised with agarose gel electrophoresis, and the resulting change in viscosity was analysed. A short homogenisation time resulted in increased viscosity of the process solution that correlated with increased concentration of released non-fragmented DNA. With longer homogenisation time the viscosity decreased with increasing degree of DNA-fragmentation.</p><p>The results show that strain dependant cell surface properties of<em> E. coli</em> may have an impact on several primary steps in downstream processing.</p> Downstream processing cell surface properties surface plasmon resonance contact angle measurements microelectrophoresis aqueous two-phase partitioning filtration EBA adsorbents high-pressure homogenisation Biochemistry Biokemi
386	Enhancement of Raman signals : coherent Raman scattering and surface enhanced Raman spectroscopy Chou, He-Chun 06 July 2012 (has links) Raman spectroscopy is a promising technique because it contains abundant vibrational chemical information. However, Raman spectroscopy is restricted by its small scattering cross section, and many techniques have been developed to amplify Raman scattering intensity. In this dissertation, I study two of these techniques, coherent Raman scattering and surface enhanced Raman scattering and discuss their properties. In the first part of my dissertation, I investigate two coherent Raman processes, coherent anti-Stokes Raman scattering (CARS) and stimulated Raman scattering (SRS). In CARS project, I mainly focus on the molecular resonance effect on detection sensitivity, and I find the detection sensitivity can be pushed into 10 [micromolar] with the assistance of molecular resonance. Also, I am able to retrieve background-free Raman spectra from nonresonant signals. For SRS, we develop a new SRS system by applying spectral focusing mechanism technique. We examine the feasibility and sensitivity of our SRS system. The SRS spectra of standards obtained from our system is consistent with literature, and the sensitivity of our system can achieve 10 times above shot-noise limit. In second part of this dissertation, I study surface enhanced Raman scattering (SERS) and related plasmonic effects. I synthesize different shapes of nanoparticles, including nanorod, nanodimer structure with gap and pyramids by template method, and study how electric field enhancement effects correlate to SERS by two photon luminescence (TPL). Also, I build an optical system to study optical image, spectra and particle morphology together. I find that SERS intensity distribution is inhomogeneous and closely related to nanoparticle shape and polarization direction. However, TPL and SERS are not completely correlated, and I believe different relaxation pathways of TPL and SERS and coupling of LSPR and local fields at different frequencies cause unclear correlation between them. / text Raman spectroscopy Surface enhanced Raman spectroscopy SERS Coherent anti-Stokes Raman spectroscopy CARS Stimulated Raman spectroscopy Two photon luminescence Localized surface plasmon resonance
387	Application du SPR dans le criblage des ligands synthétiques du CD36 et sa validation Lambert-Lanteigne, Patrick 12 1900 (has links) Le CD36 est un récepteur de type éboueur de classe B exprimé à la surface de nombreux types cellulaires dont les macrophages, les cellules endothéliales de la microvasculature et les plaquettes. Ce récepteur multiligand est impliqué dans plusieurs processus pathologiques notamment l’athérosclérose, l’angiogénèse et la malaria via la liaison spécifique de ligands comme les lipoprotéines oxydées de basse densité, la thrombospondine-1 et la protéine PfEMP-1, respectivement. Les peptides de la relâche de l’hormone de croissance (GHRP) ont été identifiés comme les premiers ligands synthétiques du CD36. Afin de développer de nouveaux ligands synthétiques du CD36, l’établissement d’une méthode de criblage est essentiel pour découvrir des composés avec une liaison de haute affinité pour ce récepteur. Pour y parvenir, nous avons surexprimé le domaine extracellulaire du CD36 humain dans les cellules d’insectes Sf9. La protéine soluble purifiée par chromatographie d’affinité fut immobilisée à la surface d’une plaque de résonance de plasmons de surface (SPR) pour les études de liaison. La méthodologie développée a permis de caractériser les ligands du CD36 en déterminant leurs constantes de dissociation (KD), et d’établir une relation structure-activité des ligands de la famille des azapeptides, des composés dérivés du GHRP-6. Afin de valider la méthode par spectroscopie SPR, une corrélation a été établie entre les valeurs de KD obtenues en SPR et les valeurs d’CI50 de courbes d’inhibition de la phosphorylation des MAP kinases JNK1/2 induite par un phospholipide oxydé, le POVPC, en présence de concentrations croissantes de ligands du CD36 dans les macrophages RAW 264.7. / CD36 is a class B scavenger receptor expressed at the cell surface of macrophages, endothelial cells and platelets, among others. This multiligand receptor is implicated in various diseases such as atherosclerosis, angiogenesis and malaria through the specific binding of ligands, such as oxidized low-density lipoproteins, thrombospondin-1 and the PfEMP-1 protein, respectively. Growth hormone-releasing peptides (GHRP) were identified as the first CD36 synthetic ligands. In order to identify new CD36 synthetic ligands, the development of a high-throughput method is essential to unveil compounds of high binding affinity. We have expressed a recombinant CD36 ectodomain protein in Sf9 insect cells. The soluble and affinity purified protein was immobilized on a surface plasmon resonance (SPR) sensor for binding studies. Synthetic ligands were analyzed by SPR spectroscopy for determination of their respective dissociation constant (KD). A structure-activity relationship of CD36 ligands was established. To validate the SPR binding signal, a good correlation was observed between KD and the IC50 values obtained from the inhibition curves of the MAPK kinase JNK1/2 phosphorylation induced by an oxidized phospholipid, the POVPC, in the presence of increasing concentrations of CD36 ligands in RAW 264.7 macrophage cells. Azapeptide CD36 GHRP Résonance des plasmons de surface SPR Growth hormone-releasing peptides Surface plasmon resonance
388	Extraction of High-Value Minor Proteins from Milk Billakanti, Jaganmohan January 2009 (has links) Various methods for extraction and analysis of high value minor proteins (lactoferrin, lactoperoxidase and immunoglobulins) directly from raw milk were explored. Extraction, purification and analysis of high-value minor proteins directly from milk without pre-treatment are major challenges for dairy industry, largely due to the complexity of milk and the presence of colloidal solids (casein micelles and milk fat globules). To overcome some of these challenges, this work focused on three main objectives: 1) characterization of cryogel monolith chromatography for purification of lactoferrin (LF) and lactoperoxidase (LP) directly from raw milk in single step, 2) identification and characterization of Protein A Mimetic affinity ligands for purification of immunoglobulins (Igs) from milk and 3) development and validation of a surface plasmon resonance method for simultaneous quantification of five whey proteins in multiple samples. Results portrayed the possibility of 40–50 column volumes of various milk samples (whole milk, skim milk and acid whey) to pass through a 5 mL cryogel monolith chromatography column at 525 cm hr⁻¹ without exceeding its pressure limits if the processing temperature is maintained around 35–37°C. Ideally, this should be the milk secretion temperature. The dynamic binding capacity obtained for the cryogel matrix (2.1 mg mL⁻¹) was similar to that of the binding capacity (2.01 mg mL⁻¹) at equilibrium with 0.1 mg mL⁻¹ of lactoferrin in the feed samples. Lactoferrin and lactoperoxidase was selectively bound to the cryogel column with trivial leakage in flowthrough fractions. Lactoferrin was recovered from elution fractions with a yield of 85% and a purity of 90%. These results, together with the ease of manufacture, low cost and versatile surface chemistry of cryogels suggest that they may be a good alternative to packed-bed chromatography for direct capture of proteins from milk, provided that the binding capacity can be increased. A Protein A Mimetic (PAM) hexapeptide (HWRGWV) peptide ligand that binds to the Fc portion of antibody molecules was explored for affinity purification of immunoglobulins from milk. The peptide has the ability to purify IgG from various milk and whey samples with a purity of greater than 85% in single step. More than 90% bound IgG was recovered with 0.2 M acetate buffer at pH 4.0 and total column regeneration was successfully achieved by 2.0 M guanidine-HCl. At 9.0 mg mL⁻¹ of IgG feed concentration, an equilibrium binding capacity of 21.7 mg mL⁻¹ and dynamic binding capacity of approximately 12.0 mg mL⁻¹ of resin was obtained. Recoveries and yields of IgG were significantly influenced by the feed IgG concentration. PAM hexamer ligand also contributed a significant amount of cross-reactivity with casein, glycomacropeptides and β-lactoglobulin proteins, however majority of these proteins were recovered in the regeneration step, except β-lactoglobulin, which co-eluted with IgG. Higher IgG concentration in feed vastly reduced the amount of cross-reactivity whilst increasing the recoveries and purities in the final product. PAM affinity ligands also showed interactions towards other classes of bovine immunoglobulins. These findings established the possibility of using PAM hexamer peptide as an alternative to conventional Protein A/G affinity chromatography for the isolation of Igs from milk in single step process. A surface plasmon resonance (SPR) method was developed for simultaneous, quantitative determination of commercially important whey proteins in raw and processed milk samples, whey fractions and various milk-derived products, with six samples per assay. Immobilized antibody stability and reproducibility of analyses were studied over time for 25 independent runs (n=300), giving a relative standard deviation (RSD) of <4%. Immobilized antibodies showed negligible non-specific interactions (<2–4 SPR response units (RU)) and no cross-reactivity towards other milk components (<1 RU). Regeneration of immobilised antibodies with glycine at pH 1.75 was determined to be optimal for maintaining the SPR response between samples. This method compared and validated well with reversed phase high performance liquid chromatography (RP-HPLC) and standard enzyme-linked immunosorbent assays (ELISA). Milk Whey Proteins Chromatography Protein A Mimetic Peptides Surface Plasmon Resonance Cryogel Monoliths Affinity Chromatography lactoferrin Immunoglobulins Minor Proteins High Vaule Milk Protiens Extraction of Milk Proteins
389	GOLD NANOSPHERES AND GOLD NANORODS AS LOCALIZED SURFACE PLASMON RESONANCE SENSORS Matcheswala, Akil Mannan 01 January 2010 (has links) A novel localized surface plasmon resonance (LSPR) sensor that differentiates between background refractive index changes and surface-binding of a target analyte (e.g. a target molecule, protein, or bacterium) is presented. Standard, single channel LSPR sensors cannot differentiate these two effects as their design allows only one mode to be coupled. This novel technique uses two surface plasmon modes to simultaneously measure surface binding and solution refractive index changes. This increases the sensitivity of the sensor. Different channels or modes can be created in sensors with the introduction of gold nanospheres or gold nanorods that act as receptor mechanisms. Once immobilization was achieved on gold nanospheres, the technique was optimized to achieve the same immobilization for gold nanorods to get the expected dual mode spectrum. Intricate fabrication methods are illustrated with using chemically terminated self assembled monolayers. Then the fabrication process advances from chemically silanized nanoparticles, on to specific and systematic patterns generated with the use of Electron Beam Lithography. Comparisons are made within the different methods used, and guidelines are set to create possible room for improvement. Some methods implemented failed, but there was a lot to learn from these unsuccessful outcomes. Finally, the applications of the dual mode sensor are introduced, and current venues where the sensors can be used in chemical and biological settings are discussed. Surface Plasmon Resonance Sensor (SPR) Dual Mode SPR Sensor Absorption vs. Wavelength Electrical and Computer Engineering
390	FABRICATION OF NANOSTRUCTURES FOR IMPROVED PERFORMANCE OF ELECTROCHEMICAL SENSORS AND FOR REFERENCE COMPENSATION IN LOCALIZED SURFACE PLASMON RESONANCE SENSORS Para, Prashanthi 01 January 2009 (has links) L‐glutamate is associated with several neurological disorders; thus, monitoring fast dynamics of L‐glutamate is of great importance in the field of neuroscience. Electrode miniaturization demanded by many applications leads to reduced surface area and decreased amounts of immobilized enzymes on coated electrodes. As a result, lower signal‐to‐noise ratios are observed for oxidase‐enzyme based sensors. To increase the signal‐to‐noise ratio we have developed a process to fabricate micro‐ and nano‐ structures on the microelectrode surface. Localized surface‐plasmon resonances (SPR) has been extensively used to design label‐free biosensors that can monitor receptor‐ligand interactions. A major challenge with localized SPR sensors is that they remain highly susceptible to interference because they respond to both solution refractive index changes and surface binding of the target analyte. The key concept introduced in the present work is the exploitation of transverse and longitudinal resonance modes of nanorod arrays to differentiate between bulk refractive index changes and surface interactions. The transverse bulk sensitivity of the localized SPR sensor (107 nm/RIU) remains competitive with typical single mode gold nanosphere SPR sensors. The figure of merit for the device’s cross‐sensitivity (1.99) is comparable to that of typical wavelength‐interrogated propagating SPR sensors with self referencing. Self compensation Label free detection Nanorod array sensors Electrical and Computer Engineering Nanotechnology fabrication

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