E
Edith Schlagenhauf
Researcher at University of Zurich
Publications - 11
Citations - 1453
Edith Schlagenhauf is an academic researcher from University of Zurich. The author has contributed to research in topics: Gene & Genome. The author has an hindex of 10, co-authored 11 publications receiving 1427 citations. Previous affiliations of Edith Schlagenhauf include École Polytechnique Fédérale de Lausanne.
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454 sequencing put to the test using the complex genome of barley
TL;DR: The data indicate that 454 pyrosequencing allows rapid and cost-effective sequencing of the gene-containing portions of large and complex genomes and that its combination with ABI-Sanger sequencing and targeted sequence analysis can result in large regions of high-quality finished genomic sequences.
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Rapid Genome Divergence at Orthologous Low Molecular Weight Glutenin Loci of the A and Am Genomes of Wheat
Thomas Wicker,Nabila Yahiaoui,Romain Guyot,Edith Schlagenhauf,Zhong-Da Liu,Jorge Dubcovsky,Beat Keller +6 more
TL;DR: The striking differences in the intergenic landscape between the A and Am genomes that diverged 1 to 3 million years ago provide evidence for a dynamic and rapid genome evolution in wheat species.
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Analysis of a contiguous 211 kb sequence in diploid wheat (Triticum monococcum L.) reveals multiple mechanisms of genome evolution.
TL;DR: Seven types of foldback transposons, an element class previously not described for wheat genomes, were characterized and one such element was found to be closely associated with genes in several Triticeae species and may therefore be of use for the identification of gene-rich regions in these species.
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Subgenome chromosome walking in wheat: A 450-kb physical contig in Triticum monococcum L. spans the Lr10 resistance locus in hexaploid wheat (Triticum aestivum L.)
TL;DR: It is demonstrated that chromosome walking using bacterial artificial chromosome (BAC) clones is possible in the diploid wheat Triticum monococcum (A(m) genome) and subgenome chromosome walking in wheat can produce large physical contigs and saturate genomic regions to support positional cloning.
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Genetic subtraction profiling identifies genes essential for Arabidopsis reproduction and reveals interaction between the female gametophyte and the maternal sporophyte
Amal J. Johnston,Amal J. Johnston,Patrick Meier,Jacqueline Gheyselinck,Samuel Ej Wuest,Michael Federer,Edith Schlagenhauf,Jörg Becker,Ueli Grossniklaus +8 more
TL;DR: Sporophytic gain of expression in mutants lacking an embryo sac suggests that a substantial portion of the sporophytic transcriptome involved in carpel and ovule development is, unexpectedly, under the indirect influence of the embryo sac.