The C*-algebras of connected real two-step nilpotent Lie groups

Using the operator valued Fourier transform, the C*-algebras of connected real two-step nilpotent Lie groups are characterized as algebras of operator fields defined over their spectra. In particular, it is shown by explicit computations, that the Fourier transform of such C*-algebras fulfills the norm controlled dual limit property.Comment: 37 pages, submitted to "Revista Matem\'atica Complutense

25th European Congress of Arachnology in Alexandroupolis (Greece), 16 - 21 August 2009 – oder – I know what you did last summer

Kongressbericht: 25. Europäischer Kongress der Arachnologi

Equipe Editorial

Esta é a Equipe Editorial da Revista Philia&Filia, Vol. 03, no. 01 (jan./jul. 2012), Literatura e Cultura dos Séculos XVI ao XVIII

Antibodies to actin in autoimmune haemolytic anaemia

BACKGROUND: In autoimmune haemolytic anaemia (AIHA) autoreactive antibodies directed against red blood cells are upregulated leading to erythrocyte cell death. M. suis infections in pigs (IAP) induce AIHA of both the warm and the cold type. Aim of this study was to identify target autoantigens of warm autoreactive IgG antibodies. For this, sera from experimentally M. suis infected pigs were screened for autoreactivity. RESULTS: In sera of 95 % of all tested animals actin-reactive antibodies were found. The reactivity was shown to be species specific, i.e. reactivity with porcine actin was significantly higher than with rabbit-actin. Sera of animals previously immunised with the adhesion protein MSG1 of M. suis showed reactivity with actin prior to infection with M. suis indicating molecular mimicry to be involved in specific autoreactive mechanism. A potentially cross reactive epitope could be detected. CONCLUSIONS: This is the first report of autoreactive anti-actin antibodies involved in pathogenesis of autoimmune haemolytic anaemia

Soybean processing systems

Little is known about professional soybean processing technology in Europe. This brochure describes them by referring to farms or enterprises in Germany and Austria. Through an assessment of advantages and disadvantages, the brochure provides guidance for practitioners including farmers and advisors, with relevance for conventional and organic farming

Initial Stages of Sodium Deposition onto Au(111) from [MPPip][TFSI]: An In‐Situ STM Study for Sodium‐Ion Battery Electrolytes

Sodium-ion batteries are promising candidates for post-lithium-ion batteries. While sodium has a less negative standard electrode potential compared to lithium, it is still a strong reducing agent. Ionic liquids are suitable solvents for sodium metal batteries, since metallic sodium is very reactive, particularly with water and molecules containing acidic hydrogen atoms. In this study, the initial stages of electrodeposition of sodium on Au(111) from N-methyl-N-propylpiperidinium [MPPip] bis(trifluoromethanesulfonyl)imide [TFSI] were studied using voltammetry and in-situ scanning tunnelling microscopy. Four subsequent underpotential deposition stages were observed: (i) nucleation at the Au(111) reconstruction elbows, followed by (ii) growth of small monoatomically high islands that form (iii) a smooth layer via coalescence, and (iv) further island growth on top of the existing layers. The electrocrystallisation mode changed from smooth layer formation to 3D growth, resulting in cauliflower-like structures. The deposition process was accompanied by simultaneous alloy formation

Wide-range strain tunability provided by epitaxial LaAl1−xScxO3 template films

The dielectric diamagnetic LaAl1− xScxO3 (LASO) (x=0–1) is proposed for adjusting of the biaxial in-plane lattice parameter of oxide substrates in the wide range from 3.79 to 4.05 Å (6.5%). This range includes the pseudocubic lattice parameters of most of the currently investigated complex oxides. The in-plane lattice parameter of strain-relaxed LASO films depends linearly on the composition, and these films grow with a smooth surface. On several different LASO-buffered substrates, ferromagnetic La0.7Sr0.3MnO3 (LSMO) films have been grown in predetermined strain states. A series of 30 nm thick LSMO films on LASO-buffered LaSrAlO4(001) demonstrates that continuously controlled coherent strains in a wide range, in this case from − 1 to +0.6%, can be obtained for the functional oxide films grown on LASO

Electrodeposition of Zinc onto Au(111) and Au(100) from the Ionic Liquid [MPPip][TFSI]

The improvement of rechargeable zinc/air batteries was a hot topic in recent years. Predominantly, the influence of water and additives on the structure of the Zn deposit and the possible dendrite formation were studied. However, the effect of the surface structure of the underlying substrate was not focused on in detail, yet. We now show the differences in electrochemical deposition of Zn onto Au(111) and Au(100) from the ionic liquid N-methyl-N-propylpiperidinium bis(trifluoromethanesulfonyl)imide. The fundamental processes were initially characterized via cyclic voltammetry and in situ scanning tunnelling microscopy. Bulk deposits were then examined using Auger electron spectroscopy and scanning electron microscopy. Different structures of Zn deposits are observed during the initial stages of electrocrystallisation on both electrodes, which reveals the strong influence of the crystallographic orientation on the metal deposition of zinc on gold

The Rac1 Inhibitor NSC23766 Exerts Anti-Influenza Virus Properties by Affecting the Viral Polymerase

The frequent emergence of new influenza viruses in the human population underlines the urgent need for antiviral therapeutics in addition to the preventative vaccination against the seasonal flu. To circumvent the development of resistance, recent antiviral approaches target cellular proteins needed by the virus for efficient replication. We investigated the contribution of the small GTPase Rac1 to the replication of influenza viruses. Inhibition of Rac1 by NSC23766 resulted in impaired replication of a wide variety of influenza viruses, including a human virus strain of the pandemic from 2009 as well as highly pathogenic avian virus strains. Furthermore, we identified a crucial role of Rac1 for the activity of the viral polymerase complex. The antiviral potential of NSC23766 was confirmed in mouse experiments, identifying Rac1 as a new cellular target for therapeutic treatment of influenza virus infections