Global ETD Search

1	Enzymatic degradation of bovine serum albumin nanoparticles for drug delivery Singh, Harsh Unknown Date No description available. bovine serum albumin matrix metalloproteinase-2 trypsin
2	Enzymatic degradation of bovine serum albumin nanoparticles for drug delivery Singh, Harsh 06 1900 (has links) Coacervation is a mild process for developing protein NPs. Bovine serum albumin (BSA) NPs formed via this technique were stabilized using poly-L-Lysine (PLL); short interfering ribonucleic acid (siRNA) was used as a model drug for encapsulation. Specific and non-specific degradation of these coated and uncoated BSA NPs were carried using matrix metalloproteinase-2 (MMP-2) and trypsin, respectively. The particles were characterized with atomic force microscopy, zeta-potential, and photon correlation spectroscopy measurements. There was a significant increase in the zeta potential of BSA NPs upon coating. Trypsin digested the uncoated and coated BSA NPs and resulted in higher BSA release from the particles. However, MMP-2 treatment did not result in higher release of BSA from coated NPs despite the cleavability of coated polymer by MMP-2. This study described a method for obtaining BSA NPs in a controllable size range. Such particles showed degradability in the presence of trypsin and could be promising for targeted drug delivery applications. / Chemical Engineering bovine serum albumin matrix metalloproteinase-2 trypsin
3	Biosensing with sol-gel-immobilised proteins Barreau, Stephanie January 1999 (has links) Low temperature-processed, porous sol-gel glasses represent a new class of materials for the immobilisation of biomolecules. If used to entrap biological recognition elements, these transparent and chemically inert glasses offer a new approach in the development of optical biosensors. 572
4	Fabrication of bovine serum albumin nanotubes through template assisted layer by layer assembly Zhang, Dawei 06 May 2009 (has links) One-dimensional nanostructures have offered unique advantages in many fields. Protein based nanotubes, in particular, are desirable for biomedical applications due to their ease of functionlization and intrinsic biocompatibility. Template-assisted methods are widely used to fabricate cylindrical nanostructures like carbon nanotubes, metal nanowires, polymer nanorods, etc. In the fabrication of protein nanostructures, the layer by layer (LbL) technique has long been applied to deposit protein multilayers on planar and spherical substrates. The success in each area led to the conclusion that the combination of these two techniques will potentially bring us the capability of fabricating protein nanotubes in a more controllable fashion. In this work, protein nanotubes have been successfully deposited inside nanoscopic pores by sequential filtration of bovine serum albumin (BSA) solution at pH 3.8 and pH 7.0 through the channels in the anodic aluminum oxide (AAO) template. The morphologies of the obtained nanostructures have been examined using scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Also, a simple analysis from UV/Vis spectroscopy has shown that the solutions used in our experiment will not significantly damage the bioactivity of BSA. Our future work will focus on strengthening the mechanical stability of the protein nanotubes and controlling their morphology more precisely. bovine serum albumin AAO template Layer by layer assembly nanotubes
5	Isolation and Some Biochemical Properties of Porcine Pancreas Mitochondria WAKABAYASHI, TAKASHI, HAYAKAWA, TETSUO, ADACHI, KAYO, SAKAI, YUZO 03 1900 (has links) No description available. Bovine serum albumin Phospholipase A2 Trypsin inhibitor Dibucaine Mitochondria Pancreas
6	Immunochemical Studies on the family of Biotin Binding Proteins Subramanian, N 01 1900 (has links) Investigations detailed in this thesis constitue a part of continuing programme of research work undertaken in this laboratory on vitamin binding proteins. Avidin from the chicken egg white, streptavidin &om the bacterium Streptromyces avidin and biotin binding proteins (BBP-I and BBP-11) from chicken egg yolk constitute a family of proteins that bind the vitamin biotin with extremely high affinities. The yolk BBPs are involved in the deposition of the vitamin in the developing oocyte in chicks whereas an antimicrobial function has been attributkl to avidin.. The fact that all these proteins bind the vitamin in the same manner, unlike biotin-dependent enzymes, indicates that the structural features involved in ligand binding could be similar, if not identical in these proteins. To delineate the basis of putative structural similarity among these proteins, studies were carried out using antibodies as the immunological probes. Avidin, a homotetremer glycoprotein, with a subunit Mr of 17,000 has been purified to homogeneity from chicken egg white using a novel procedure involving ammonium sulphate fractionation, ethanol precipitation and S-Sepharose column chromatography. Despite their lesser abundance in chicken egg yolk associated with a large amount of interfering lipids during the purification, both BBP-I (monomer and shown to be precursor for BBP-11) and BBP-I1 (tetramer) have been purified to homogeneity by employing a common method using butanol extraction to remove the lipids, DEAE-Sephacel column chromatography, biotin-AH-Sepharose affinity chromatography and fast performance liquid chrometography (FPLC) system. The purity of all these proteins was confirmed by SDS-PAGE analysis. Biochemistry Biotin Binding Protein Immunochemical Antigen Bovine serum albumin cDNA
7	The bovine serum albumin protein corona on nanoparticles: investigating the effects of changing pH, substrates, and ions Givens, Brittany Estelle 01 May 2017 (has links) Nanoparticles are currently used in a wide range of applications including industrially processes, consumer products, and as drug delivery vehicles. The potential toxicity of these nanoparticles in living organisms is concerning due to their ever-expanding applications and accumulation in the environment. The effects of properties of the human body on the potential harmful nature of these nanoparticles must be understood in order to ensure safety in workplaces and at-home products. In this thesis, the interactions between nanoparticles and the most abundant blood protein, serum albumin, were investigated. The effects of changing the aqueous environment was investigated over a range of different pH values and with different ionic salts dissolved in water. The effects of changing the nanoparticle substrate were investigated to determine if different nanoparticles affect proteins differently. Finally, the effects of changing the concentration of nanoparticles and the presence of protein were investigated in a model lung cell line in vitro. The studies over different pH values revealed that serum albumin was able to adsorb to the silica nanoparticle surface, and retained its secondary structure both as a function of pH and adsorption in a 2-hour time frame. However, adsorption was greater on the titanium dioxide nanoparticle surface and the protein lost secondary structure at acidic pH (pH 2.0). Studies with different ionic salts revealed a possible correlation between BSA adsorption and nanoparticle aggregation in that the attractive interactions between nanoparticles were least when the least amount of protein was adsorbed. To the nanoparticle surface. In vitro studies with A549 human adenocarcinoma lung cells were inconclusive in determining the potential toxicity of these nanoparticles, but preliminary results suggested that the addition of protein to the system decreased toxicity compared with nanoparticles alone. This research aims to inform the field of nanotechnology to investigate the safety and efficacy of nanoparticles before they reach the consumer. bovine serum albumin nano-bio interactions nanoparticles Chemical Engineering
8	Universal Aqueous-Based Antifouling Coatings for Multi-Material Devices Goh, Sharon January 2017 (has links) Biofouling is an ongoing problem in the development and usage of biomaterials for biomedical implants, microfluidic devices, and water-based sensors. Antifouling coatings involving surface modification of biomaterials is widely utilized to reduce unwanted protein adsorption and cell adhesion. Surface modification strategies, however, are reliant on the working material’s chemical properties. Thus, published procedures are often not applicable to a wide range of material classes. This constitutes a serious limitation in using surface modification on assembled multi-material devices, i.e on whole device modification. The objective of this research is to develop an antifouling coating with non-aggressive reaction conditions that can universally modify polymers and other material classes. Two strategies using polydopamine (PDA) as an anchor for polyethylene glycol (PEG) surface attachment were investigated: (1) PDA-PEG backfilled with bovine serum albumin (BSA), and (2) PDA-PEG with light activated perfluorophenyl azide (PFPA) conjugated to the PEG. Three materials varying in surface wettability were studied to evaluate the coatings for multi-material applications: porous polycarbonate membrane (PC), polydimethyl siloxane (PDMS), and soda lime glass cover slips. Atomic force microscopy (AFM) and ellipsometry studies revealed substantial structural differences of PDA. Differences in PDA surface roughness affected PEG grafting in solution (the first method), with higher PEG coverage achieved on PC with intermediate surface roughness to PDMS and glass. Radiolabeled Fg adsorption and E. coli adhesion experiments showed reduced fouling on all PDA-PEG modified materials when backfilled with BSA. The ability for BSA to penetrate the PEG layer indicated that low PEG grafting densities were achieved using this grafting-to approach. The use of a photoactive labeling agent, PFPA, to tether PEG was proposed to improve PEG grafting on PDA. The PFPA-PEG modification protocol was optimized by quantifying Fg adsorption. Two treatments of PFPA-PEG were required to fully block PDA active sites. Fg adsorption was not significantly improved on PFPA-PEG modified PC and glass when backfilled with BSA, indicating sufficient PEG coverage of PDA. High Fg adsorption on PFPA-PEG surfaces indicate that high density PEG brushes were still not achieved with this method. PDMS surfaces were damaged with this procedure due to increased surface handling in the protocol. This is the first, to our knowledge, successful demonstration of PFPA modification on PDA surfaces. Photopatterning of polymer-based materials can be achieved, providing opportunities for utilising new materials in cell patterned platforms. Due to low PEG coverage on PDA surfaces from solution and using PFPA, ultra-low protein adsorption cannot be achieved using these aqueous-based methods. Antifouling modifications using PDA and PEG should be applied for short-term cell studies. / Thesis / Master of Applied Science (MASc) Antifouling Polyethylene Glycol Bovine Serum Albumin Polydopamine Perfluorophenyl Azide
9	Caracterização do aço inoxidável austenítico UNS S31254 em meio de NaCI 0,11 mol L-1 visando seu emprego em implantes ortopédicos / Electrochemical characterization of UNS S31254 austenitic stainless steel in 0.11 mol L-1 NaCl medium in order to propose its application in orthopaedic implants Afonso, Monica Luisa Chaves de Andrade 27 September 2006 (has links) Foi feita a caracterização eletroquímica do aço inoxidável austenítico UNS S31254 em meio de NaCl 0,11 mol L-1 na ausência e presença de soro albumina bovina (BSA) visando seu emprego em implantes ortopédicos. Foram empregadas como técnicas: medidas de potencial de circuito aberto, curvas de polarização, cronoamperometria, EIE, XPS, MEV, EDS e EEO. O comportamento eletroquímico do aço 254 foi comparado com o de outros aços empregados em implantes ortopédicos (ISO 5832-9, ASTM F138, e AISI 316L) na ausência e presença de BSA. O aço 254 se mostrou semelhante ao ISO 5832-9: encontra-se passivado desde o potencial de corrosão até o de transpassivação; a presença de inclusões de óxidos de cálcio e alumínio no aço 254 foi considerada a responsável por um potencial de transpassivação 100 mV menos positivo do que o observado com o aço ISO 5832-9. Foi detectada. além de óxido de Cr(III), a presença de Mo na forma Mo(VI) no filme passivo do aço 254. A ação da BSA, ora passivante ora catalisadora, depende de sua concentração, da natureza do substrato metálico, e do potencial na interfase metal-solução. A BSA modifica o mecanismo de oxidação do aço 254 e inibe seletivamente a dissolução dos seus elementos constituintes, em particular, níquel e cromo. / The electrochemical characterization of UNS S31254 has been made in 0.11 mol L-1 NaCl medium in the absence and presence of bovine serum albumin (BSA) in order to propose its application in orthopaedic implants. The techniques employed were: open circuit potential measurements, polarization curves, chronoamperometry, EIS, XPS, SEM, EDS and EEO. The electrochemical behavior of 254 SS was compared to that observed for ISO 5832-9, ASTM F138 and AISI 316L stainless steels, used in orthopedic implants, in the absence and presence of BSA. 254 SS is similar to ISO 5832-9 SS: it is passivated on the potential range between the corrosion and the transpassivation potentials; the presence of calcium and aluminum oxides can be responsible for the shift of about 100 mV to less positive potentials on the transpassivation potential when compared to ISO 5832-9 SS. The presence of Mo(VI) was detected beside Cr(III) as passivating film for 254 SS. BSA action depends on its concentration, the nature of the metallic substract and on the potential in the metal-solution interphase. BSA changes the oxidation mechanism of 254 SS and promotes the selective dissolution of the elements particularly nickel and chromium. Aço inoxidável austenítico Bovine serum albumin Corrosão Corrosion Implantes ortopédicos Orthopaedic implants Soroalbumina bovina Stainless steel
10	Interação da proteína albumina do soro bovino (BSA) com substratos sintéticos / Interaction of the protein bovine serum albumin (BSA) with synthetic substrates. Ferreira, Ernando Silva 19 February 2010 (has links) A interface formada por materiais biológicos e materiais sintéticos tem grande importância em aplicações biomédicas, tais como o desenvolvimento de biomateriais para implantes médicos, que tem como processo essencial a deposição de proteínas na superfície dos biomateriais, e ainda não é bem compreendido no nível molecular. Algumas proteínas sofrem mudanças conformacionais após a adsorção na interface sólido-líquido, afetando suas funções ou propriedades, e algumas técnicas podem medir mudanças conformacionais em interfaces sólido. É possível estudar a fluorescência intrínseca de proteínas: a posição do máximo na faixa espectral da fluorescência, a eficiência quântica e o tempo de vida de fluorescência são indicadores de mudanças no ambiente local de grupos de moléculas de proteína fluorescente. Por outro lado, Nanopartículas de ouro têm atraído muita atenção pela sua afinidade com materiais biológicos e suas propriedades ópticas. Nesta tese, estudamos a viabilidade de substratos de vidro, quartzo, mica e ITO (óxido de índio e estanho) modificado com quitosana, phtalocyanines (Ni, Fe e Ni) e poli(alilanina hidroclorada) (PAH) na adsorção de BSA em forma dos filmes produzidos pela técnica camada por camada. O sistema foi estudado por UV-Vis e espectroscopia de fluorescência estática e resolvida no tempo. A caracterização morfológica dos filmes foi realizada por microscopia de força atômica e microscopia óptica. Os resultados mostram que os filmes de BSA / HAP cresceram com eficiência quatro vezes maior do que os filmes feitos de quitosana, que o quartzo tem a melhor janela de trabalho de UV-vis e há uma relação entre o pH da BSA e o tempo vida de fluorescência do filme resultante. As nanopartículas de ouro foram produzidas pela redução química e estabilizada por quatro diferentes métodos. O crescimento das nanopartículas foi monitorado por UV-vis spectroscopy. A carga de superfície das nanopartículas e da BSA foi estimado em vários valores de pH por medidas de potencial zeta. Os resultados indicaram que as nanopartículas têm cargas negativas na faixa de pH estudada. Soluções de BSA foram preparadas em diferentes valores de pH, e levadas para interagir com as nanopartículas de ouro. Os dados de supressão de fluorescência da BSA mostraram uma maior afinidade da BSA com nanopartículas estabilizadas com sacarose, com pH próximo do ponto isoelétrico (IP) estimado para BSA. / The interface formed by biological materials and synthetic materials has great importance in biomedical applications such as the development of biomaterials for medical implants, which has as an essential process of protein adsorption on the surface of biomaterials, and is not yet well understood in the molecular level. Some proteins undergo conformational changes after adsorption at solid-liquid interfaces, affecting their functions or properties, and few techniques can measure conformational changes in solid interfaces. It is possible to study the intrinsic fluorescence of proteins: the position of the maximum in the spectral range of fluorescence, the quantum efficiency and lifetime of fluorescence are indicators of change in the local environment of fluorescent groups of protein molecules. On the other hand, gold nanopartículas have attracted much attention for its affinity with biological materials and their optical properties. In this thesis we study the feasibility of glass substrates, quartz, mica and ITO (Indium tin oxide) modified with chitosan, phtalocyanines (Ni, Fe and Ni) and poly (allylamine hydrochloride) (PAH) on the adsorption of BSA in the form of films produced by the layer by layer technique. The system was studied by UV-Vis and static and time-resolved fluorescence spectroscopy. Morphological characterization of the films was performed by atomic force microscopy and optical microscopy. The results indicate that the films of BSA/PAH grew with efficiency four times greater than the films made of chitosan, that the quartz has the best working window for UV-vis and there is a relationship between the pH of the BSA and lifetime of fluorescence of the resulting film. Gold nanoparticles were produced by chemical reduction and stabilized by four different methods. The growth of nanoparticles was monitored by UV-vis spectroscopy. The surface charge of nanoparticles and the BSA was estimated at various pH values by zeta potential measurements. The results indicated that the nanoparticles have negative charges in the pH range studied. BSA solutions were prepared at various pH values, were taken to interact with gold nanoparticles. Fluorescence quenching data of BSA showed a greater affinity of the BSA with nanoparticles stabilized with sucrose, at pH near the isoelectric point (IEP) estimated for BSA. Bovine serum albumin film LBL Filmes LBL fluorescence Fluorescência gold nanoparticle. Nanopartículas de ouro

Search results