Flash aplikace komunikující s LMS MOODLE

To, že se ve vývojovém prostředí Adobe Flash dají vytvářet kvalitní výukové materiály od animací až po výukové programy, není žádnou novinkou. Studijní materiály musíme samozřejmě někde zpřístupnit studentům, k čemuž je velmi hojně využíván LMS Moodle, který je uživatelsky přívětivý a i méně technicky zdatní pedagogové jsou schopni v něm vytvářet kurzy pro svoje studenty. Nicméně LMS Moodle na vše sám nestačí a někdy je nutné pro tvorbu specifických studijních materiálů sáhnout po něčem jiném – například po Adobe Flash. Naštěstí je možné aplikace vytvořené v Adobe Flash vložit do LMS Moodle a docílit i toho, že Flash aplikace a LMS Moodle spolu budou komunikovat. Tento příspěvek si klade za cíl poskytnout návod, jak je možné této vzájemné komunikace docílit.The fact that in Adobe Flash can create high-quality educational materials from animations to tutorials, is not new. Study materials we obviously somewhere to make students, which is very widely used LMS Moodle, which is user friendly and even less technically savvy educators are able to create it in courses for their students. However, LMS Moodle itself is not enough for everything, and sometimes it is necessary for the formation of specific learning materials to reach for something else - for example, Adobe Flash. Fortunately, applications created with Adobe Flash embed into Moodle LMS and achieve that and that Flash applications and LMS Moodle will communicate. This paper aims to provide guidance on how to achieve this mutual communication

Preconcentration of hydride forming elements in quartz trap in connection with ICP-MS

Charles Uviversity in Prague Faculty of Science Department of Analytical Chemistry Student: Miroslav Kašpar Supervisor: RNDr. Tomáš Matoušek, Ph.D. Name of Thesis: Preconcentration of hydride forming elements in quartz trap with ICP-MS detection The aim of this thesis are pilot experiments employing quartz trap (QT) for preconcentration of hydride forming elements and their subsequent detection by inductively coupled plasma mass spectrometry (HG-QT-ICP-MS). Arsenic and antimony were chosen as model analytes. Preconcentration efficiency on quartz surface was studied in a trap, which was integrated into an interface between spray chamber and plasma torch. We have identified a critical loss of analyte during transportation, instability of the plasma due to sudden change of gas composition, poor repeatability and very quick release of Sb from the trap resulting in difficult quantification of Sb signal. Despite the efforts to resolve these experimental problems, so far we were unable to achieve improvements in analytical parameters compared to standard analytical methods. Keywords: Preconcentration, quartz trap, mass spectrometry with inductively coupled plasma, hydride generation, arsenic, antimon

Summary of enriched metabolic pathways and enzyme classes of schistosomulum stage (S) with comparison to cercaria (C) of <i>Trichobilharzia regenti</i> based on KEGG BRITE/pathway classification and Gene ontology (GO).

<p>Summary of enriched metabolic pathways and enzyme classes of schistosomulum stage (S) with comparison to cercaria (C) of <i>Trichobilharzia regenti</i> based on KEGG BRITE/pathway classification and Gene ontology (GO).</p

Comparative Transcriptomic Exploration Reveals Unique Molecular Adaptations of Neuropathogenic <i>Trichobilharzia</i> to Invade and Parasitize Its Avian Definitive Host - Fig 2

<p>(A) Kyoto Encyclopedia of Genes and Genomes (KEGG) BRITE annotation of transcripts from cercaria and schistosomulum transcriptomes of <i>Trichobilharzia regenti</i>. (B, C) Venn diagrams displaying the results from homology-based comparisons of transcripts in the transcriptome of <i>T</i>. <i>regenti</i> cercariae or schistosomula with the genomes of <i>Schistosoma mansoni</i> (SM), <i>S</i>. <i>haematobium</i> (SH), <i>S</i>. <i>japonicum</i> (SJ), <i>Clonorchis sinensis</i> (CS) and <i>Opisthorchis viverrini</i> (OV).</p

Experimental design for the production of <i>Trichobilharzia regenti</i> cercariae and schistosomula for the present study.

<p>Experimental design for the production of <i>Trichobilharzia regenti</i> cercariae and schistosomula for the present study.</p

Characteristics of the transcriptomic and predicted proteomic datasets for the cercaria and schistosomulum stages of <i>Trichobilharzia regenti</i>.

<p>Characteristics of the transcriptomic and predicted proteomic datasets for the cercaria and schistosomulum stages of <i>Trichobilharzia regenti</i>.</p

Summary of enriched metabolic pathways and enzyme classes of cercaria stage (C) with comparison to schistosomulum (S) of <i>Trichobilharzia regenti</i> based on KEGG BRITE/pathway classification and Gene ontology (GO).

<p>Summary of enriched metabolic pathways and enzyme classes of cercaria stage (C) with comparison to schistosomulum (S) of <i>Trichobilharzia regenti</i> based on KEGG BRITE/pathway classification and Gene ontology (GO).</p