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The essays collected in this book focus on the multi-faceted relationship between German/Austrian literature and the cinema screen. Scholars from Ireland, Great Britain, Germany, Switzerland, Luxembourg, Portugal, USA and Canada present critical readings of a wide range of transpositions of German-language texts to film, while also considering the impact of cinema on German literature, exploring intertextualities as well as intermedialities. The forum of discussion thus created encompasses cinematic narratives based on Goethe’s Faust, Kleist’s Marquise of O..., Kubrick’s film version of Schnitzler’s Dream Story and Caroline Link’s Oscar-winning adaptation of Stefanie Zweig’s novel Nowhere in Africa. The wide-ranging analyses of the complex interaction between literature and film presented here focus on literary works by Anna Seghers, Hans-Magnus Enzensberger, Nicola Rhon, Günter Grass, Heinrich Böll, Elfriede Jelinek, Rolf Dieter Brinkmann, Erich Hackl, Thomas Brussig, Sven Regener, Frank Goosen and Robert Schneider, as well as on adaptations by filmmakers such as Friedrich Wilhelm Murnau, Max Mack, Josef von Sternberg, Max W. Kimmich, Fred Zinnemann, Paul Wegener, Alexander Kluge, Volker Schlöndorff, Hansjürgen Pohland, Hendrik Handloegten, Michael Haneke, Christoph Stark, Karin Brandauer, Joseph Vilsmaier, Leander Haußmann and Doris Dörrie.
"But at Cold Spring Harbor, she began the studies on the consequence of dicentric chromosome formation and breakage that led her to the discovery of genetic elements capable moving within the genome and controlling expression of other genes. Although McClintock was universally respected and admired, the first reaction to these findings was often uncomprehending or indifferent, even dismissive. In due course, however, the generality of mobile genetic elements and the concept of a dynamic genome were understood and widely accepted, culminating in the award to McClintock of an unshared Nobel prize in 1983." "As Barbara's 90th birthday approached, some of her many friends and colleagues were invited to write essays for the occasion. This book contains a kaleidoscope of contributions, many by those who discovered transposition in other organisms. Their essays give a remarkable account of the scientific legacy of one of the century's greatest geneticists."--BOOK JACKET.
This book discusses advances in our understanding of the structure and function of the maize genome since publication of the original B73 reference genome in 2009, and the progress in translating this knowledge into basic biology and trait improvement. Maize is an extremely important crop, providing a large proportion of the world’s human caloric intake and animal feed, and serving as a model species for basic and applied research. The exceptionally high level of genetic diversity within maize presents opportunities and challenges in all aspects of maize genetics, from sequencing and genotyping to linking genotypes to phenotypes. Topics covered in this timely book range from (i) genome sequencing and genotyping techniques, (ii) genome features such as centromeres and epigenetic regulation, (iii) tools and resources available for trait genomics, to (iv) applications of allele mining and genomics-assisted breeding. This book is a valuable resource for researchers and students interested in maize genetics and genomics.
New modes of epistemic relationships in artistic research Research leads to new insights rupturing the existent fabric of knowledge. Situated in the still evolving field of artistic research, this book investigates a fundamental quality of this process. Building on the lessons of deconstruction, artistic research invents new modes of epistemic relationships that include aesthetic dimensions. Under the heading transposition, seventeen artists, musicians, and theorists explain how one thing may turn into another in a spatio-temporal play of identity and difference that has the power to expand into the unknown. By connecting materially concrete positions in a way familiar to artists, this book shows how moves can be made between established positions and completely new ground. In doing so, research changes from a process that expands knowledge to one that creatively reinvents it. Contributors: Annette Arlander (University of the Arts Helsinki), Paulo de Assis (Orpheus Institute, Ghent), Rosi Braidotti (Utrecht University), Leif Dahlberg (Royal Institute of Technology Stockholm), Lucia D?Errico (Orpheus Institute, Ghent), Mika Elo (University of the Arts Helsinki), Laura González (Royal Conservatoire of Scotland), Esa Kirkkopelto (University of the Arts Helsinki), Yve Lomax (Royal College of Art, London), Cecile Malaspina (CNRS-Universit{caron} Paris 1/Universit{caron} Paris 7), Tor-Finn Malum Fitje (independent artist, Oslo), Dieter Mersch (Zurich University of the Arts), David Pirr{dotb} (University of Music and Performing Arts Graz), Hans-Jörg Rheinberger (Max Planck Institute for the History of Science, Berlin), Hanns Holger Rutz (University of Music and Performing Arts Graz), Michael Schwab (Orpheus Institute, Ghent/University of Applied Arts Vienna), Birk Weiberg (Zurich University of the Arts)
An exploration of the raw power of genetic material to refashion itself to any purpose... Virtually all organisms contain multiple mobile DNAs that can move from place to place, and in some organisms, mobile DNA elements make up a significant portion of the genome. Mobile DNA III provides a comprehensive review of recent research, including findings suggesting the important role that mobile elements play in genome evolution and stability. Editor-in-Chief Nancy L. Craig assembled a team of multidisciplinary experts to develop this cutting-edge resource that covers the specific molecular mechanisms involved in recombination, including a detailed structural analysis of the enzymes responsible presents a detailed account of the many different recombination systems that can rearrange genomes examines the tremendous impact of mobile DNA in virtually all organisms Mobile DNA III is valuable as an in-depth supplemental reading for upper level life sciences students and as a reference for investigators exploring new biological systems. Biomedical researchers will find documentation of recent advances in understanding immune-antigen conflict between host and pathogen. It introduces biotechnicians to amazing tools for in vivo control of designer DNAs. It allows specialists to pick and choose advanced reviews of specific elements and to be drawn in by unexpected parallels and contrasts among the elements in diverse organisms. Mobile DNA III provides the most lucid reviews of these complex topics available anywhere.
The Encyclopedia of Mathematics Education is a comprehensive reference text, covering every topic in the field with entries ranging from short descriptions to much longer pieces where the topic warrants more elaboration. The entries provide access to theories and to research in the area and refer to the leading publications for further reading. The Encyclopedia is aimed at graduate students, researchers, curriculum developers, policy makers, and others with interests in the field of mathematics education. It is planned to be 700 pages in length in its hard copy form but the text will subsequently be up-dated and developed on-line in a way that retains the integrity of the ideas, the responsibility for which will be in the hands of the Editor-in-Chief and the Editorial Board. This second edition will include additional entries on: new ideas in the politics of mathematics education, working with minority students, mathematics and art, other cross-disciplinary studies, studies in emotions and mathematics, new frameworks for analysis of mathematics classrooms, and using simulations in mathematics teacher education. Existing entries will be revised and new entries written. Members of the international mathematics education research community will be invited to propose new entries. Editorial Board: Bharath Sriraman Melony Graven Yoshinori Shimizu Ruhama Even Michele Artigue Eva Jablonka Wish to Become an Author? Springer's Encyclopedia of Mathematics Education's first edition was published in 2014. The Encyclopedia is a "living" project and will continue to accept articles online as part of an eventual second edition. Articles will be peer-reviewed in a timely manner and, if found acceptable, will be immediately published online. Suggested articles are, of course, welcome. Feel encouraged to think about additional topics that we overlooked the first time around, and to suggest colleagues (including yourself!) who will want to write them. Interested new authors should contact the editor in chief, Stephen Lerman, at [email protected], for more specific instructions.
Toxicoepigenetics: Core Principles and Applications examines the core aspects of epigenetics, including chromatin biology, DNA methylation, and non-coding RNA, as well as fundamental techniques and considerations for studying each of these mechanisms of epigenetic regulation. Although its integration into the field of toxicology is in its infancy, epigenetics have taken center stage in the study of diseases such as cancer, diabetes, and neurodegeneration. Increasing the presence of epigenetics in toxicological research allows for a more in-depth understanding of important aspects of toxicology such as the role of the environment and lifestyle influencing the individual susceptibility to these effects and the trans-generational transmission of these health effects and susceptibilities. Methods chapters are included to help improve efficacy and efficiency of protocols in both the laboratory and the classroom. Toxicoepigenetics: Core Principles and Applications is an essential book for researchers and academics using epigenetics in toxicology research and study. - Introduces the fundamental principles and practices for understanding the role of the epigenome in toxicology - Presents the foundation of epigenetics for toxicologists with a broad range of backgrounds - Discusses the incorporation of epigenetics and epigenomics into current toxicological studies and interpretation of epigenetic data in toxicological applications
Most genes are lined up on chromosomes like pearls on a string. However, a certain class of genes differ by being highly mobile; and the mecha they are termed transposons. Their properties of transposition will be described in this book. nism is the rule, irregularities like a spot on a Where uniformity plain-coloured surface strike the eye. Thus the phenomenon of has long been a source of fascina variegation among organisms In plants, variegation is most easily recognised as irregulari tion. in pigment patterns on leaves, flowers and seeds, but other ties as leaf or flower form might also show characteristics such In 1588, such a variegation pattern was described in variegation. kernels of Zea mays by Jacob Theodor of Bergzabern, a village is so detailed that if south of Strasbourg. The report by Theodor one counts the different kernel phenotypes described it be is looking at a Mendelian segrega comes clear that the author had tion. It goes without saying that Latin-American Indians already bred such variegated material much earlier, but no descriptions have yet been uncovered. Meanwhile, genetically heritable variegation patterns have been described at many different loci in more than 34 different plant species.
A complete guide to endonuclease-based genomic engineering, from basic science to application in disease biology and clinical treatment.