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Number of items: 9.

Martis, M M; Klemme, S; Banaei-Moghaddam, A M; Blattner, F R; Macas, J; Schmutzer, T; Scholz, Uwe; Gundlach, H; Wicker, T; Simkova, H; Novak, P; Neumann, P; Kubalakova, M; Bauer, E; Haseneyer, G; Fuchs, J; Dolezel, J; Stein, N; Mayer, K F X; Houben, A (2012). Selfish supernumerary chromosome reveals its origin as a mosaic of host genome and organellar sequences. Proceedings of the National Academy of Sciences of the United States of America, 109(33):13343-13346.

Wicker, Thomas; Mayer, K F X; Gundlach, H; Martis, M; Steuernagel, B; Scholz, Uwe; Simková, H; Kubaláková, M; Choulet, F; Taudien, S; Platzer, M; Feuillet, C; Fahima, T; Budak, H; Dolezel, J; Keller, B; Stein, N (2011). Frequent gene movement and pseudogene evolution is common to the large and complex genomes of wheat, barley, and their relatives. The Plant Cell, 23(5):1706-1718.

Nair, S K; Wang, N; Turuspekov, Y; Pourkheirandish, M; Sinsuwongwat, S; Chen, G; Sameri, M; Tagiri, A; Honda, I; Watanabe, Y; Kanamori, H; Wicker, T; Stein, N; Nagamura, Y; Matsumoto, T; Komatsuda, T (2010). Cleistogamous flowering in barley arises from the suppression of microRNA-guided HvAP2 mRNA cleavage. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 107(1):490-495.

Vu, G T H; Wicker, T; Buchmann, J P; Chandler, P M; Matsumoto, T; Graner, A; Stein, N (2010). Fine mapping and syntenic integration of the semi-dwarfing gene sdw3 of barley. Functional & Integrative Genomics, 10(4):509-521.

Wicker, T; Krattinger, S G; Lagudah, E; Komatsuda, T; Pourkheirandish, M; Matsumoto, T; Cloutier, S; Reiser, L; Kanamori, H; Sato, K; Perovic, D; Stein, N; Keller, B (2009). Analysis of intraspecies diversity in wheat and barley genomes identifies breakpoints of ancient haplotypes and provides insight into the structure of diploid and hexaploid triticeae gene pools. Plant Physiology, 149(1):258-270.

Wicker, T; Taudien, S; Houben, A; Keller, B; Graner, A; Platzer, M; Stein, N (2009). A whole-genome snapshot of 454 sequences exposes the composition of the barley genome and provides evidence for parallel evolution of genome size in wheat and barley. The Plant Journal, 59(5):712-722.

Mayer, K F X; Taudien, S; Martis, M; Simková, H; Suchánková, P; Gundlach, H; Wicker, T; Petzold, A; Felder, M; Steuernagel, B; Scholz, Uwe; Graner, A; Platzer, M; Dolezel, J; Stein, N (2009). Gene content and virtual gene order of barley chromosome 1H. Plant Physiology, 151(2):496-505.

Wicker, T; Narechania, A; Sabot, F; Stein, J; Vu, G T H; Graner, A; Ware, D; Stein, N (2008). Low-pass shotgun sequencing of the barley genome facilitates rapid identification of genes, conserved non-coding sequences and novel repeats. BMC Genomics, 9:518.

Wicker, T; Schlagenhauf, E; Graner, A; Close, T J; Keller, B; Stein, N (2006). 454 sequencing put to the test using the complex genome of barley. BMC Genomics, 7:275.

This list was generated on Sun Sep 24 18:49:19 2017 CEST.