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11	Multi-Axis differential optical absorption spectroscopy measurements in polluted environments Sinreich, Roman. January 2007 (has links) Heidelberg, Univ., Diss., 2007. / Online publiziert: 2008.
12	Development of Biobased Phenolic Adhesives for Engineered Wood Products Kalami, Somayyeh 10 August 2018 (has links) Phenolic adhesives are widely used in the production of engineered wood products due to their exceptional moisture and thermal resistance, chemical stability, and bonding strength. The phenolic adhesive is currently produced through condensation polymerization of two fossil fuel-derived compounds: phenol and formaldehyde. However, due to fluctuations in the price of phenol and formaldehyde with the price of oil, environmental and health issues associated with using these compounds, there is a strong interest in finding alternative renewables feedstocks. Lignin is a natural polyphenolic compound with excellent potential to substitute phenol in phenolic adhesive formulations. Lignin is produced as byproducts during pulp and bioethanol processes. On the other hand, biobased aldehydes such as glyoxal have recently gained a lot of attention for replacing the toxic formaldehyde in production of environmentally friendly wood products. In this study, a wide range of lignin samples from different resources (hardwood, softwood, wheat straw, and corn stover), and isolated via various processes (kraft, organosolv, soda, sulfite, and enzymatic hydrolysis), were used to formulate 100% lignin-based phenolic adhesives. In a separate work, formaldehyderee phenolic adhesives were also developed using either glyoxal or gossypol (a dialdehyde from cotton seed) in combination with phenol. Chemical, physical, and thermal properties of lignin samples and developed phenolic resins and adhesive were measured using advanced analytical techniques and appropriate ASTM standard test methods. Based on two-way ANOVA analysis results of shear strength data, a biorefinery corn stover lignin that had the highest p-hydroxyphenyl and p-coumaric acid content was the most suitable lignin for replacing 100% of phenol in phenolic adhesive formulation. In addition, the developed lignin-based adhesive (formulated with biorefinery corn stover lignin) showed similar dry and wet adhesion strengths as that of commercially formulated phenol resorcinol formaldehyde (PRF) adhesive. On weight basis, the formaldehyde consumption in the developed lignin-based adhesive was 50% lower than the formaldehyde used in phenol formaldehyde (PF) resin. Moreover, two formaldehyderee formulated adhesives using glyoxal and gossypol (renewable feedstocks) had very similar physico-chemical properties to phenol formaldehyde adhesive. Biobased Sustainability Gossypol Glyoxal Renewable Material Phenol Formaldehyde Adhesive Lignin
13	Collagen Type I Prevents Glyoxal-Induced Apoptosis in Osteoblastic Cells Cultured on Titanium Alloy Tippelt, Sonja, Ma, C., Witt, Martin, Bierbaum, Susanne, Funk, Richard H. W. January 2004 (has links) Advanced glycation end products (AGEs) irreversibly cross-link proteins with sugars and accumulate at a higher age and in diabetes, processes which can interfere with the integration of implants into the tissue. Glyoxal is a highly reactive glycating agent involved in the formation of AGEs and is known to induce apoptosis, as revealed by the upregulation of caspase-3 and fractin (caspase-3 being a key enzyme activated during the late stage of apoptosis and fractin being a caspase-cleaved actin fragment). In this study, we investigated the influence of collagen type I coating on the cytotoxic effect of glyoxal on rat calvarial osteoblastic cells and on human osteosarcoma cells (Saos-2) grown on titanium alloy, Ti6Al4V. Activation of caspase-3 and fractin was measured by counting immunohistochemically stained cells and by flow cytometry with propidium iodide (detection of the apoptosis indicating a sub-G1 peak). Our results showed an increased number of apoptotic osteoblasts after incubation with glyoxal on Ti6Al4V discs. However, the number of apoptotic cells on collagen-coated titanium was significantly smaller than on uncoated titanium after the same treatment. The present findings demonstrate that osteoblasts treated with glyoxal undergo apoptosis, whereas collagen type I coating of titanium alloys (used for implants) has an antiapoptotic function. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/610 ddc:610
14	Synthetic Functionalization of Colloidal Lignin Particles for Wood Adhesive Applications / Syntetisk funktionalisering av kolloidala Lignin-partiklar förvedhäftande applikationer Alexander Deen, Fusi January 2020 (has links) Functionalizable spherical colloidal lignin particles (CLPs) represent a valuable asset for the valorization of lignin side-streams from the pulp industry. The spherical structure allows for the circumvention of the heterogeneous and poorly dispersible structure of the biopolymer. However, organic solvents and alkaline media degrade the particle structure and dissolve the polymers due to their chemical nature and solubility. The solvents will alter the aggregated polymers into irregular shapes that would correspond to inconsistent physicochemical properties. Then, the material will become unusable for advanced material applications, namely wood adhesives. In this study, a replicable process to yield pH ca. 12 stable CLPs for wood adhesives or further functionalization for other advanced material applications was developed and optimized. Lignin was functionalized with cross-linkers, glyoxal or formaldehyde, and selfassembled into spherical structures in the micro emulsification of the organic solution. The formed colloids were partially rotary evaporated to retain organic solvents within the colloidal structures, and then be cured at 73-76 °C until pH stable and further functionalized for advanced material applications. The functionalization with glyoxal was pursued further for its possibly increased reactivity and the health concerns associated with formaldehyde. The process requires the addition of glyoxal to lignin in an acidic organi cmedia at ambient temperature, and the solution to react at 64 °C. Glyoxal is likely added to the polymer structure in its hydrated and dimerized form, and its attachment to lignin should be analyzed through the behavior of glyoxal in different media. The formed colloids were rotary evaporated to an organic solvent content of 60 wt. % of the spheres to allow the occurrence of the curing reaction. These materials were finally cured by thermosetting them at 73-76 °C until pH stable. The particles can be cured with base-catalysis through the controlled addition of the base NaOH(aq). However, the mode and rate of addition of the catalyst are critically important for a nondegradative infusion of a base into solvent present ot removed particles without morphological changes. Further procedural improvement and larger batches are necessary to conduct CLP adhesive experiments. / Funktionaliserbara sfäriska kolloidala ligninpartiklar (CLP) är en värdefull tillgång för valorisering av ligninsidoströmmar från massaindustrin. Den sfäriska strukturen reducerar effekten av den heterogena och dåligt dispergerbara biopolymeren. Organiska lösningsmedel och alkaliska medier försämrar emellertid partikelstrukturen och löser upp polymererna på grund av deras kemiska natur och löslighet. Lösningsmedel kommer att resultera i att de aggregerade polymererna antar oregelbundna former vilket skulle resultera i inkonsistenta fysikalisk-kemiska egenskaper. Därigenom blir materialet oanvändbart för avancerade materialapplikationer, såsom t ex trälim. I denna studie, utvecklades och optimerades en reproducerbar process för att ge pH ca. 12 stabila CLP för trälim eller ytterligare funktionalisering för andra avancerade materialapplikationer. Lignin funktionaliserades med tvärbindare, glyoxal eller formaldehyd och självorganiserades till sfäriskas trukturer genom mikroemulgering av organfasen. De bildade kolloiderna indunstades delvis roterande för att bibehålla det organiska lösningsmedlet i de kolloidala strukturerna och härdades sedan vid 73-76 ° C tills pH-stabilitet och funktionaliserades ytterligare för avancerade materialapplikationer. Funktionaliseringen med glyoxal utfördes också för att reaktiviteteten och begränsa de hälsoproblem som är förknippade med formaldehyd. Förfarandet kräver tillsats av glyoxal till lignin i ett surt organiskt medium vid rumstemperatur för att sedan reageras vid 64 ° C. Glyoxal i dess hydratiserade och dimeriserade form adderas sannolikt till polymeren, och dess kemiska inbindning till lignin kan analyseras genom att undersöka glyoxal uppförande i olika medier. De bildade kolloiderna indunstades till ett organiskt lösningsmedelsinnehåll av 60 viktprocent för att möjliggöra härdning. Dessa material härdades slutligen genom värmehärdning vid 73-76 ° C tills pH var stabilt. Partiklarna kan härdas med baskatalys genom kontrollerad tillsats av basen NaOH (aq). Emellerti där sättet och tillsatshastigheten för katalysatorn kritiskt viktigt. Ytterligare processförbättringar och större satser är nödvändiga för att genomföra CLP-limexperiment. Lignin Colloidal Lignin Particles Glyoxal CLPs adhesive Lignin kolloidala ligninpartiklar glyoxal CLP lim Textile, Rubber and Polymeric Materials Textil-, gummi- och polymermaterial
15	Induction of vascular endothelial growth factor-A165a in human retinal and endothelial cells in response to glyoxal Morawietz, Henning, Frenzel, Annika, Mieting, Alic, Goettsch, Winfried, Valtink, Monika, Roehlecke, Cora, Jászai, József, Funk, Richard H. W., Becker, Klio A., Engelmann, Katrin 22 May 2024 (has links) Low-density lipoprotein (LDL) apheresis is effective and safe for patients with diabetes, proteinuria, and dyslipidemia. Diabetes mellitus is accompanied by ocular microvascular complications like retinal neovascularization or diabetic macular edema. These are leading causes of blindness and can be mediated by abnormal vessel growth and increased vascular permeability due to elevated levels of vascular endothelial growth factor (VEGF) in diabetic patients. In this study, we established methods to study the expression of different VEGF isoforms in human retinal and endothelial cells. The VEGF-A165a isoform is much higher expressed in retinal cells, compared to endothelial cells. Stimulation with glyoxal as a model of oxidative stress under diabetic conditions lead to a pronounced induction of VEGF-A165a in human retinal and endothelial cells. These data suggest that diabetes and oxidative stress induce VEGF-A isoforms which could be relevant in regulating the ingrowths of novel blood vessels into the retina in diabetic patients. info:eu-repo/classification/ddc/610 ddc:610
16	Etude de nouvelles oxydo-réductases impliquées dans la dégradation de la biomasse végétale chez les champignons du genre Pycnoporus : de l'expression des gènes aux applications biothechnologiques Uzan-Boukhris, Eva 30 November 2011 (has links) Cette étude a pour objectif la mise en évidence, chez les basidiomycetes du genre Pycnoporus, de nouvelles oxydo-réductases impliquées dasn la dégradation de la biomasse végétale: de l'expression des gènes aux applications biotechnologiques. Les champs d'application visés concernent essentiellement le domaine de la chimie verte, dans le cadre du projet européen BIORENEW. Le travail s'est articulé autour de trois axes principaux. Le premier a concerné l'exploration de la biodiversité naturelle en particulier tropicale, pour la sélection de souches productrices de nouvelles laccases de haut potentiel d'oxydo-réduction. Le gène codant pour la laccase Lac1 chez Pycnoporus a été utilisé comme marqueur moléculaire d'identification et de relation phylogénie-fonction, mettant en évidence une distribution des souches fortement corrélée avec leur écozone. Le deuxième axe a porté sur l'isolement de trois nouvelles laccases issues de P.sanguineus et P. coccineus qui exhibent des caractéristiques biochimiques complémentaires: haute thermostabilité, résistance aux solvants, au pH, constantes catalytiques et potentiels rédox élevés. Ces enzymes constituent de bons modèles pour des applications en biotechnologies blanches:décoloration de colorants polyphénoliques, oxydation de composés modèles de type lignine non-phénolique, oligomérisation de flavonoides naturels adaptés aux applications cosmétiques et pharmaceutiques. Enfin, dans le cadre de l'annotation du génome des souches monocaryotiques P. cinnabarinus BRFM 137 et P; sanguineus BRFM 1264, dont le séquençage a été réalisé par notre Unité, un regard tout à fait nouveau est porté sur le système lignolytique du genre Pycnoporus, longtemps décrit comme produisant que de la laccase comme enzyme du système lignolytique. Pour la première fois, nous avons montré la présence de gènes codant pour tout l'arsenal enzymatique de dégradation des lignines, c'est à dire plusieurs laccases mais surtout de nombreuses peroxydases et des enzymes auxilliaires génératrices d'H2O2 comme les glyoxal oxydases. Ces nouvelles enzymes ont été caractérisées in silico. Pour la première fois également, la sécrétion effective de peroxydases, de glyoxal oxydases et d'autres FOLymes dans nos conditions de culture a également pu être démontrée par analyse protéomique. / The purpose of this work was to prospect, in the genus Pycnoporus, for new oxido-reductases involved in the degradation of lignocellulosic biomass: from gene expression to biotechnological applications. This research was conducted in the framework of green chemistry applications according to BIORENEW European Project. The study was divided in three main research axes. Firstly, the exploration of natural biodiversity, especially tropical biodiversity, for the selection of new high redox potential-laccase producing strains. These strains were repositionned in a context of phylogenomic/function through the lac1 gene. Molecular clustering based on lac1 sequences enabled the distribution of P. sanguineus and P. coccineus through four distinct, well supported clades and subclades. This distribution was highly correlated with ecozones. The second part of the work deals with the biochemical and molecular characterization of three novel laccases from P. coccineus and P. sanguineus, and their applicability on natural or model phenolic substrates. The three laccases showed complementary biochemical features: high thermo- and pH stability, high catalytic efficiency and resistance to organic solvents. The three novel laccases proved to be suitable models for white biotechnology processes: polyphenolic dye decolourization, non-phenolic lignin model compound oxidation, and synthesis of new oligomers from natural flavonoids suitable for cosmetic or pharmaceutical applications. Finally, annotation of genomic data from the monocaryotic strains P. cinnabarinus BRFM 137 and P. sanguineus BRFM 1264 (genomes sequenced by the UMR1163 BCF ) was performed for lignolytic enzymes. For the first time, new oxidases (peroxidases, glyoxal oxidases and other FOLymes) were evidenced in Pycnoporus and in silico characterized. Moreover, the active secretion of several of these enzymes has been demonstrated in our culture conditions by 1D-proteomic analysis Pycnoporus Champignons filamenteux Laccase Peroxydase Glyoxal oxydase Oxydo-réductases Applications biotechnologiques Génome Sécrétome Pycnopours Filamentous fungi Laccae Peroxidase Glyoxal oxidase Oxido-reductases Biotechnological applications Genome Secretome
17	Development and Deployment of Optical Instruments to Measure Trace Atmospheric Species: I. Water Isotopologues; II. Glyoxal; III. Iodine Monoxide O'Brien, Anthony 13 December 2012 (has links) Understanding future climate requires observations of trace species that can significantly influence the chemical or radiative properties of the atmosphere. The development of optical instruments, utilizing laser-systems as high-resolution light sources, for making in situ observations of trace species from either airborne- or ground-based platforms and results from field campaigns are presented. Glyoxal, the smallest \(\alpha\)-dicarbonyl, is a common product during the oxidation of volatile organic compounds. An instrument using the technique of laser-induced phosphorescence was developed to measure glyoxal at the part per trillion by volume (pptv) level from a tower in a forest canopy. The instrument was deployed as part of the Community Atmosphere-Biosphere INteractions EXperiment. The instrumental limit of detection is 3 pptv with a 1-minute acquisition time. Nearly continuous measurements of glyoxal ranging between 5 – 75 pptv were acquired throughout the campaign and vertical gradients in the forest canopy were found to be driven by elevated temperature. A sensitive instrument using laser-induced fluorescence detection was developed and deployed into remote marine environments to measure iodine monoxide (IO) where the mixing ratio is on the order of 1 – 5 pptv. The challenges and solutions of operating in this environment and results from the field and laboratory are discussed. Laboratory experiments show that IO can be generated from Laminaria digitata, a subtidal kelp species, in the presence of ozone. Observations of the isotopic composition of condensed and vapor water above a large summertime tropical convective system obtained by Hoxotope and ICOS instruments during the TC4 campaign are used to analyze the role of convection in the lower tropical transition layer (TTL). Regions of ice that are characteristic of either convective lofting or in situ condensation are encountered above an active deep tropical convective system. Ice is an important component of water transport models in the TTL, yet its isotopic composition is a relatively unconstrained parameter. The implications from the direct observations of the isotopic composition of ice during convection is explored with respect to transport models of water in the TTL. / Chemistry and Chemical Biology atmospheric chemistry chemistry physical chemistry glyoxal iodine monoxide measurements spectroscopy water isotopologues
18	Bio-based wood adhesive derived from brewers spent grain Muselíková, Vladislava January 2017 (has links) Brewers spent grain (BSG) is an abundant waste material from the brewing process, representing approximately 85% of total by-products generated, is rich in cellulose and non-cellulosic polysaccharides and has a strong potential to be recycled. One of the main components of the BSG is protein, which has a potential to be extracted, modified and used as an adhesive for the woodworking adhesive. This work deals with the protein extraction through alkali treatment and its subsequent modification, crosslinking with glyoxal. The crosslinked adhesive was tested through ABES method to find, that ideal content of glyoxal is 20%. Subsequent adjusted standard tests for the lap shear strength and bend strength (MOE and MOR values) were used to compare its values to commercially available PVAc adhesive. The lap shear strength results were 2,7 times lower to PVAc, the bend strength values were, on the other hand, 1,5 times higher. The PVAc was partially replaced (50 and 25%) by the protein adhesive showing that the extracted adhesive could serve as a partial replacement to lower the ecological impact of the PVAc adhesive.
19	The molecular anatomy of synaptic vesicle recycling at the hair cell ribbon synapse Richter, Katharina Natalia 15 August 2019 (has links) No description available. 570 Inner hair cells Auditory system Synaptic vesicle recycling Ribbon synapse Glyoxal fixation CosiQuant Biologie (PPN619462639)
20	Effect of concentration of glutaraldehyde and glyoxal on binding lysozyme to zein based films to control foodborne pathogens in tomatoes Richter, Kevin 03 May 2012 (has links) The demand for biodegradable packaging materials as an alternative to synthetic ones to reduce environmental cost has seen an increase in recent years. In addition, functionalizing the packaging film to provide specific advantages like antimicrobial properties has yet to be explored thoroughly. This study considers adding antimicrobial agents to improve the quality and safety of actively packaged fresh produce using an antimicrobial enzyme (lysozyme) immobilized on a biopolymer based packaging film (corn-zein). The developed packaging material is aimed as an active biodegradable packaging to reduce bacterial contamination on the surface of fresh organic produce, specifically tomatoes. The study uses glutaraldehyde and glyoxal as binding agents to immobilize the enzyme on the packaging film. The effect of concentration of glutaraldehyde and glyoxal on the controlled release of the enzyme was studied. Concentrations of 0.1 and 0.2 g/g lysozyme: cross linking agent had controlled release properties. However, concentrations of 0 or 0.05 are about 20-30% more effective at inactivating bacteria. Antimicrobial activity in the constructed zein films are also tested against selected pathogens (Salmonella Newport and Listeria monocytogenes). Developed zein based film is tested against inoculated tomatoes to determine the efficacy of the films in reducing the pathogen population. The inoculated tomatoes are stored at room temperature over a storage period of one week. The film was able to reduce Listeria monocytogenes population by three logs but was unable to reduce the population of Salmonella Newport. / Master of Science Glyoxal Glutaraldehyde Lysozyme Films Zein Active Packaging Tomatoes Cross linking Food Safety Listeria Salmonella

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