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1.
Bolger, A.M.* et al.: Computational aspects underlying genome to phenome analysis in plants. Plant J. 97, 182-198 (2018)
2.
Bolger, M.E.* et al.: From plant genomes to phenotypes. J. Biotechnol. 17, 46-52 (2017)
3.
Mascher, M.* et al.: A chromosome conformation capture ordered sequence of the barley genome. Nature 544, 427-433 (2017)
4.
Schmutzer, T.* et al.: Bioinformatics in the plant genomic and phenomic domain: The German contribution to resources, services and perspectives. J. Biotechnol. 261, 37-45 (2017)
5.
Bauer, E.* et al.: Towards a whole-genome sequence for rye (Secale cereale L.). Plant J. 89, 853-869 (2016)
6.
Beier, S.* et al.: Multiplex sequencing of bacterial artificial chromosomes for assembling complex plant genomes. Plant Biotechnol. J. 14, 1511-1522 (2016)
7.
Ma, W.* et al.: The distribution of α-kleisin during meiosis in the holocentromeric plant Luzula elegans. Chromosome Res. 24, 393-405 (2016)
8.
Ma, W.* et al.: Rye B chromosomes encode a functional Argonaute-like protein with in vitro slicer activities similar to its a chromosome paralog. New Phytol. 213, 916-928 (2016)
9.
Spannagl, M. et al.: Transplant resources for Triticeae genomic data. Plant Genome 9, DOI: 10.3835/plantgenome2015.06.0038 (2015)
10.
International Wheat Genome Sequencing Consortium (Appels, R.* ; Mayer, K.F.X. ; Rogers, J.* ; Eversole, K.* ; Feuillet, C.* ; Stein, N.* ; Keller, B.*) et al.: A chromosome-based draft sequence of the hexaploid bread wheat (Triticum aestivum) genome. Science 345:1251788 (2014)
11.
Ariyadasa, R.* et al.: A sequence-ready physical map of barley anchored genetically by two million single-nucleotide polymorphisms. Plant Physiol. 164, 412-423 (2014)
12.
Lüpken, T.* et al.: High-resolution mapping of the barley Ryd3 locus controlling tolerance to BYDV. Mol. Breed. 33, 477-488 (2014)
13.
Bolger, M.E.* et al.: Plant genome sequencing - applications for crop improvement. Curr. Opin. Biotechnol. 26, 31-37 (2013)
14.
Lüpken, T.* et al.: Genomics-based high-resolution mapping of the BaMMV/BaYMV resistance gene rym11 in barley (Hordeum vulgare L.). Theor. Appl. Genet. 126, 1201-1212 (2013)
15.
Martis, M.M. et al.: Reticulate evolution of the rye genome. Plant Cell 25, 3685-3698 (2013)
16.
Mascher, M.* et al.: Barley whole exome capture: A tool for genomic research in the genus Hordeum and beyond. Plant J. 76, 494-505 (2013)
17.
Mascher, M.* et al.: Anchoring and ordering NGS contig assemblies by population sequencing (POPSEQ). Plant J. 76, 718-727 (2013)
18.
Muñoz-Amatriaín, M.* et al.: Distribution, functional impact, and origin mechanisms of copy number variation in the barley genome. Genome Biol. 14:R58 (2013)
19.
Poursarebani, N.* et al.: Conserved synteny-based anchoring of the barley genome physical map. Funct. Integr. Genomics 13, 339-350 (2013)
20.
Martis, M.M. et al.: Selfish supernumerary chromosome reveals its origin as a mosaic of host genome and organellar sequences. Proc. Natl. Acad. Sci. U.S.A. 109, 13343-13346 (2012)