Synthese monomerer flüssigkristalliner Diepoxide, deren Charakterisierung und Ausrichtung im elektrischen Feld

Kaese, Torsten.

January 2005

Bremen, Univ., Diss., 2005. / Erscheinungsjahr an der Haupttitelstelle: 2004. Computerdatei im Fernzugriff.

Diepoxide

Synthese monomerer flüssigkristalliner Diepoxide, deren Charakterisierung und Ausrichtung im elektrischen Feld

Kaese, Torsten.

Unknown Date

Universiẗat, Diss., 2005--Bremen. / ERscheinungsjahr an der Haupttitelstelle: 2004.

Midkine, a Heparin-Binding Protein, Is Increased in the Diabetic Mouse Kidney Postmenopause

Diamond-Stanic, Maggie K., Romero-Aleshire, Melissa J., Hoyer, Patricia B., Greer, Kevin, Hoying, James B., Brooks, Heddwen L.

01 January 2011

Estrogen is thought to protect against the development of chronic kidney disease, and menopause increases the development and severity of diabetic kidney disease. In this study, we used streptozotocin (STZ) to induce diabetes in the 4-vinylcyclohexene diepoxide (VCD)-treated mouse model of menopause. DNA microarrays were used to identify gene expression changes in the diabetic kidney postmenopause. An ANOVA model, CARMA, was used to isolate the menopause effect between two groups of diabetic mice, diabetic menopausal (STZ/VCD) and diabetic cycling (STZ). In this diabetic study, 8,864 genes of the possible 15,600 genes on the array were included in the ANOVA; 99 genes were identified as demonstrating a >1.5-fold up- or downregulation between the STZ/VCD and STZ groups. We randomly selected genes for confirmation by real-time PCR; midkine (Mdk), immediate early response gene 3 (IEX-1), mitogen-inducible gene 6 (Mig6), and ubiquitin-specific protease 2 (USP2) were significantly increased in the kidneys of STZ/VCD compared with STZ mice. Western blot analysis confirmed that Mdk and IEX-1 protein abundance was significantly increased in the kidney cortex of STZ/VCD compared with STZ mice. In a separate study, DNA microarrays and CARMA analysis were used to identify the effect of menopause on the nondiabetic kidney; VCD-treated mice were compared with cycling mice. Of the possible 15,600 genes on the array, 9,142 genes were included in the ANOVA; 20 genes were identified as demonstrating a >1.5-fold up- or downregulation; histidine decarboxylase and vanin 1 were among the genes identified as differentially expressed in the postmenopausal nondiabetic kidney. These data expand our understanding of how hormone status correlates with the development of diabetic kidney disease and identify several target genes for further studies.

4-vinylcyclohexene diepoxide

estrogen

microarray

Phase Modification And Combustion Studies On Ammonium Nitrate And Propellant Compositions

Oommen, Charlie

07 1900

No description available.

Solid Propellants

Rockets (Aeronautics) - Fuel

Ammonium Nitrate

Propellants

Diepoxide

Epoxy Resins

Oxidizers

Aeronautics

ANIONIC SYNTHESIS OF FUNCTIONAL POLYMERS USING MULTIFUNCTIONAL EPOXIDES AS LINKING AGENTS

Contractor, Asfiya Q.

January 2005

No description available.

Chemistry, Polymer

anionic polymerization

linking agents

diepoxide

in-chain

hydroxyl-functionalized polymers.

Entwicklung von Monolithen auf Basis polyfunktioneller Glycidylether für die Anwendung in der Affinitätschromatographie

Pecher, Heike Susanne

28 March 2014

Monolithische Phasen werden seit ca. 20 Jahren entwickelt und sind in den letzten Jahren eine attraktive Alternative zu etablierten mit Partikeln gefüllten Säulen geworden. Sie werden in anorganische Phasen und organische Polymermonolithe unterteilt. Monolithe bestehen aus einem einzigen, durchgehenden Stück. Charakteristisch ist das sie durchziehende Porennetzwerk, durch das der Eluent mit geringerem hydraulischen Widerstand fließen kann und das somit schnellere Flussraten ermöglicht. Polymermonolithe werden vorwiegend für die Separation großer Biomoleküle aufgrund eines durch Konvektion beschleunigten Massentransfers eingesetzt. Zudem sind sie über einen breiten pH-Wert-Bereich stabil und können direkt (in situ) im gewünschten Format polymerisiert werden. In der vorliegenden Arbeit gelang die Herstellung neuartiger epoxidbasierter Phasen nach einem von Weller et al. entwickelten Konzept, die im Affinitätsexperiment angewendet wurden. Die Herstellung erfolgte durch Autopolymerisation polyfunktioneller Glycidylether. Für die Funktionalisierung wurden nicht polymerisierte Epoxide genutzt. Als Monomere dienten TEPIC, GE 100 sowie GE 500. Die Arbeiten konzentrierten sich vor allem auf die bei Raumtemperatur durchführbaren Synthesen mit dem höher funktionellen GE 500. Die Polymerisationsbedingungen wurden hinsichtlich Porogenmischung und -anteil optimiert. Eine mit 75 Vol.-% Porogen (Dioxan/ MTBE (2:3)) hergestellte und mit rProtein A funktionalisierte Kapillarsäule (66 %, 12 µm, 7m2/g) ergab im Affinitätsexperiment eine Kapazität von 0,44 mg/mL aus Kaninchenserum isolierbarem IgG. Durch Beimischung von 60 % BDE konnte der Epoxidgehalt vervierfacht und die Porengröße auf 400 nm bei 59 % Porosität reduziert werden. Die spezifische Oberfläche wurde verdreifacht und die Kapazität präparierter Disks auf 0,90 mg/mL etwa verdoppelt. Die in dieser Arbeit entwickelten Disks können zur Isolierung von IgG aus einer komplexen Probe, wie beispielsweise Blutserum, eingesetzt werden. / Monolithic supports have been developed since 20 years and have become an attractive alternative to well-established columns packed with particles over the past years. They are classified into inorganic media and organic polymer monoliths. Monoliths consist of a single, continuous piece with an integrated characteristic porous network through which the eluent can flow with lower hydraulic resistance and which consequently offers higher flow rates. Due to an accelerated mass transfer caused by convection polymer monoliths are mainly used for separation of large biomolecules. In addition, they are stable over a wide pH range and can be polymerized directly (in situ) in the desired format. In the present work the successful preparation of new epoxide-based supports according to a concept introduced by Weller et al. as well as their application in affinity chromatography are reported. Their preparation was carried out by self-polymerization of polyfunctional glycidyl ethers and for functionalization non-polymerized epoxide groups were used. As monomers TEPIC, GE 100 and GE 500 were utilized. The work has focused especially on the polymerization of the higher functional GE 500, which can be perfomed at room temperature and was optimized in terms of both composition and amount of porogen. The extraction of IgG from rabbit serum with a capillary column (66 %, 12 µm, 7m2/g) prepared by 75 vol.-% porogen (dioxane/ MTBE (2:3)) and functionalized with rprotein A resulted in a capacity of 0,44 mg/mL. By addition of 60 % BDE the epoxide content was quadrupled and the pore size reduced to 400 nm while maintaining consistently high porosity of 59 %. The specific surface area was tripled and the capacity of prepared disks approximately doubled to 0,90 mg/mL. The disks developed in this work can be applied for the isolation of IgG from complex samples such as serum.

Phasenseparation

Porosimetrie

Affinitätschromatographie

Autopolymerisation

Diepoxid

Epoxid

Epoxidgehalt

GE 100

GE 500

Glyceroltriglycidylether

makroporöses Polymer

Monolith

Monolith-Disk

Monolith-Kapillarsäule

Polyether

polyfunktionelle Glycidylether

Polyglycerolpolyglycidylether

Polymermonolith

Porennetzwerk

Porogen

Tris(2

3-epoxypropyl)isocyanurat

TEPIC

porosimetry

affinity chromatography

diepoxide

epoxide

epoxide contents

GE 100

GE 500

glycerol glycidyl ether

macroporous polymer

monolith

monolithic disk

monolithic capillary column

phase separation

polyether

polyfunctional glycidyl ethers

polyglycerol polyglycidyl ether

polymer monolith

porogen

porous network

self-polymerization

tris(2

3-epoxypropyl) isocyanurate

TEPIC

30 Chemie

VG 7607

ddc:540