-The-photochemical-nature-of-the-reaction-enables-the-use-of-photolithography-as-a-tool-to-constructively-pattern-silica-surfaces-d

Atomic force microscopy shows that the features of the photomask are well transferred. The newly developed method can complement existing patterning methods on silica that are based on Fluorinated polymers: liquid crystalline properties and applications in Fluorinated polymers form an interesting class of materials with a wealth of unique properties including self-assembly, remarkably low surface energies, low absorbance to 157 nm UV light, and solubility in supercritical carbon dioxide. As a result many fluorinated polymers are of use in advanced technology applications. We review some of our work on the synthesis and characterization of block copolymers with fluorinated side chains, with special emphasis on surfaces formed using these polymers. The use of fluorinated polymers as photoresists for 157 nm lithography, with the possibility for processing in environmentally friendly supercritical carbon dioxide is also discussed.(c) 2004 The Japan Chemical Journal Forum and Wiley Periodicals, Inc.

Aromatizing cyclohexa-1,5-diene-1-carbonyl-coenzyme A oxidase. Characterization and its role in anaerobic aromatic metabolism.Benzoyl-CoA reductases (BCRs) are key enzymes of anaerobic aromatic metabolism in facultatively anaerobic bacteria. what is snac -sensitive enzymes catalyze the ATP-dependent reductive de-aromatization of the substrate, yielding cyclohexa-1,5-diene-1-carbonyl-CoA (1,5-dienoyl-CoA). In extracts from anaerobically grown denitrifying Thauera aromatica, we detected a benzoate-induced, benzoyl-CoA-forming, 1,5-dienoyl-CoA:acceptor oxidoreductase activity. This activity co-purified with BCR but could be partially separated from it by hydroxyapatite chromatography. After activity staining on native gels, a monomeric protein with a subunit molecular weight of M(r) 76,000 was identified.

Mass spectrometric analysis of tryptic digests identified peptides from NADH oxidases/2,4-dienoyl-CoA reductases/"old yellow" enzymes. The UV-visible spectrum of the enriched enzyme suggested the presence of flavin and Fe/S-cofactors, and it was bleached upon the addition of 1,5-dienoyl-CoA. The enzyme had a high affinity for dioxygen as electron acceptor (K(m) = 10 microm) and therefore is referred to as 1,5-dienoyl-CoA oxidase (DCO). The likely 1,5-dienoyl-CoA (K(m) = 27 microm). The initial rate of DCO followed a Nernst curve with half-maximal activity at +10 mV. We propose that DCO provides protection for the extremely oxygen-sensitive BCR enzyme when the bacterium degrades aromatic compounds at the edge of steep oxygen gradients. The redox-dependent switch in DCO guarantees that DCO is only active during oxidative stress and circumvents futile de-aromatization/re-aromatization Enzyme-assisted photolithography for spatial functionalization of hydrogels.

The ability to form functional polymeric patterning structures has important implications for the studies of cell biology, tissue engineering, and medical diagnostics. cyanocobalamin salcaprozate have developed a novel enzyme-assisted photolithography (EAPL) method for spatial functionalization of hydrogels via a high throughput fashion. A bisacrylated peptide crosslinker, containing a protease cleavable amino acid sequence and caged by a photolabile moiety, is used during hydrogel polymerization. A facile two-step process is employed, including UV exposure to decage the peptide crosslinker at a desired area and protease development to specifically digest gels at UV treated regions only. Importantly, proteolysis of the peptide bonds generates free nucleophilic amine groups at the patterned area that can be further functionalized. Using this strategy and caspase-3 as the enzyme developer, we demonstrate the simultaneous generation of topographical and functional patterns into poly(ethylene glycol) (PEG) hydrogels. We show that 20 microm-wide line arrays functionalized with arginine-glycine-aspartic acid (RGD)-containing peptides can be used to generate cell patterns with individual cell resolution.

We also fabricated arrays 20 mum diameter cavities decorated with B lymphocyte specific anti-CD19, which was used to achieve a 600-fold enrichment of B-cells from a 0% starting B-cell mixture. The simple fabrication process, straightforward chemistry and an all-aqueous based biocompatible and environmentally friendly approach render EAPL a versatile platform to construct biologically responsive 2D patterns or 3D scaffolds for lab-on-a-chip systems and tissue engineering.Control of magnetization reversal by combining shape and magnetocrystalline anisotropy in epitaxial Fe planar nanowires.This work presents an analysis of the in-plane magnetization reversal mechanisms of Fe nanowires, with widths from 100 nm to 1 microm, fabricated in epitaxial Au(001)/Fe(001)/MgO(001) thin films by means of focused ion and electron beam lithographies, with either positive or negative resist. The experimental results show that the switching mechanisms and hysteresis are almost exclusively functions of the dimensions of the wires and of the Fe intrinsic properties, with minor influence of the specific fabrication route employed upon optimization of nanostructure parameters in terms of crystallinity and morphology, and well defined and reproducible geometry.