BAM Austria: Arbeitskreis Bibliotheken, Archive, Museen Österreichs – Aktivitäten 2017

BAM Austria: Working Committee Libraries, Archives, Museums Austria came to the public in 2017 with two activities. On May 11, 2017, a seminar on "Open Access and Linked Open Data" (LOD) took place in Vienna, to which 25 representatives of libraries, archives and museums were invited. On September 13, 2017, a panel on "Digitalisation in libraries, archives and museums" was organized in the framework of the 33rd Austrian Library Day in Linz, in which about 90 people took part

BAM Austria: Working Committee Libraries, Archives, Museums Austria - Activities 2017

BAM Austria: Arbeitskreis Bibliotheken, Archive, Museen Österreichs trat 2017 mit zwei Aktivitäten an die Öffentlichkeit. Am 11. Mai 2017 fand in Wien ein Seminar zum Thema „Open Access und Linked Open Data“ (LOD) statt, zu dem 25 Vertreterinnen und Vertreter von Bibliotheken, Archiven und Museen eingeladen wurden. Am 13. September 2017 wurde im Rahmen des 33. Österreichischen Bibliothekartages in Linz ein Panel zum Thema „Digitalisierung an Bibliotheken, Archiven und Museen“ organisiert, an dem ca. 90 Personen teilgenommen haben.BAM Austria: Working Committee Libraries, Archives, Museums Austria came to the public in 2017 with two activities. On May 11, 2017, a seminar on „Open Access and Linked Open Data“ (LOD) took place in Vienna, to which 25 representatives of libraries, archives and museums were invited. On September 13, 2017, a panel on „Digitalisation in libraries, archives and museums“ was organized in the framework of the 33rd Austrian Library Day in Linz, in which about 90 people took part

BAM Austria: Arbeitskreis Bibliotheken, Archive, Museen Österreichs – Aktivitäten 2017

BAM Austria: Working Committee Libraries, Archives, Museums Austria came to the public in 2017 with two activities. On May 11, 2017, a seminar on "Open Access and Linked Open Data" (LOD) took place in Vienna, to which 25 representatives of libraries, archives and museums were invited. On September 13, 2017, a panel on "Digitalisation in libraries, archives and museums" was organized in the framework of the 33rd Austrian Library Day in Linz, in which about 90 people took part

BAM Austria: Arbeitkreis Bibliotheken, Archive, Museen Österreichs: Aktivitäten 2016

Report on the activities of BAM Austria (libraries, archives, museums)

Experimental Demonstration of 84 Gb/s PAM-4 Over up to 1.6 km SSMF Using a 20-GHz VCSEL at 1525 nm

We demonstrate 84-Gb/s four-level pulse amplitude modulation (PAM-4) over up to 1.6-km standard single mode fiber using a 20-GHz single mode short cavity vertical cavity surface emitting laser diode at a transmission wavelength of 1525 nm. Different equalizer approaches including a common feedforward equalizer, a nonlinear Volterra equalizer (NLVE), a maximum likelihood sequence estimator (MLSE) and their combinations are evaluated working either as an equalizer for a standard PAM-4 or a partial response PAM-4 signal with seven levels. It is demonstrated that a standard FFE is not enough for a transmission distance of >0.6 km, while the use of an NLVE or FFE + MLSE is able to improve the transmission distance towards 1 km. The use of partial-response PAM-4 FFE in combination with a short memory MLSE is able to efficiently equalize the bandwidth limitations, showing more than 10-times BER improvement compared to standard NLVE or FFE + MLSE at a transmission distance of 1.6 km. Using a partial-response NLVE instead of an PR-FFE further performance improvement is achieved, resulting in BERs below the KP4 FEC-threshold with a BER-limit of 2E-4 after 1.6-km transmission distance, allowing error free operation

Multi-substrate flavonol O-glucosyltransferases from strawberry (Fragaria×ananassa) achene and receptacle

In an effort to characterize fruit ripening-related genes functionally, two glucosyltransferases, FaGT6 and FaGT7, were cloned from a strawberry (Fragaria×ananassa) cDNA library and the full-length open reading frames were amplified by rapid amplification of cDNA ends. FaGT6 and FaGT7 were expressed heterologously as fusion proteins in Escherichia coli and target protein was purified using affinity chromatography. Both recombinant enzymes exhibited a broad substrate tolerance in vitro, accepting numerous flavonoids, hydroxycoumarins, and naphthols. FaGT6 formed 3-O-glucosides and minor amounts of 7-O-, 4′-O-, and 3′-O-monoglucosides and one diglucoside from flavonols such as quercetin. FaGT7 converted quercetin to the 3-O-glucoside and 4′-O-glucoside and minor levels of the 7- and 3′-isomers but formed no diglucoside. Gene expression studies showed that both genes are strongly expressed in achenes of small-sized green fruits, while the expression levels were generally lower in the receptacle. Significant levels of quercetin 3-O-, 7-O-, and 4′-O-glucosides, kaempferol 3-O- and 7-O-glucosides, as well as isorhamnetin 7-O-glucoside, were identified in achenes and the receptacle. In the receptacle, the expression of both genes is negatively controlled by auxin which correlates with the ripening-related gene expression in this tissue. Salicylic acid, a known signal molecule in plant defence, induces the expression of both genes. Thus, it appears that FaGT6 and FaGT7 are involved in the glucosylation of flavonols and may also participate in xenobiotic metabolism. The latter function is supported by the proven ability of strawberries to glucosylate selected unnatural substrates injected in ripe fruits. This report presents the first biochemical characterization of enzymes mainly expressed in strawberry achenes and provides the foundation of flavonoid metabolism in the seeds

Study of the Structure of Hyperbranched Polyglycerol Coatings and Their Antibiofouling and Antithrombotic Applications

While blood‐contacting materials are widely deployed in medicine in vascular stents, catheters, and cannulas, devices fail in situ because of thrombosis and restenosis. Furthermore, microbial attachment and biofilm formation is not an uncommon problem for medical devices. Even incremental improvements in hemocompatible materials can provide significant benefits for patients in terms of safety and patency as well as substantial cost savings. Herein, a novel but simple strategy is described for coating a range of medical materials, that can be applied to objects of complex geometry, involving plasma‐grafting of an ultrathin hyperbranched polyglycerol coating (HPG). Plasma activation creates highly reactive surface oxygen moieties that readily react with glycidol. Irrespective of the substrate, coatings are uniform and pinhole free, comprising O─C─O repeats, with HPG chains packing in a fashion that holds reversibly binding proteins at the coating surface. In vitro assays with planar test samples show that HPG prevents platelet adhesion and activation, as well as reducing (>3 log) bacterial attachment and preventing biofilm formation. Ex vivo and preclinical studies show that HPG‐coated nitinol stents do not elicit thrombosis or restenosis, nor complement or neutrophil activation. Subcutaneous implantation of HPG coated disks under the skin of mice shows no evidence of toxicity nor inflammation