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17 Records found.
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1.
Abrouk, M.* et al.: The in silico identification and characterization of a bread wheat/Triticum militinae introgression line. Plant Biotechnol. J. 15, 249-256 (2017)
2.
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)
3.
Cvikova, K.* et al.: High-throughput physical map anchoring via BAC-pool sequencing. BMC Plant Biol. 15:99 (2015)
4.
Helguera, E.* et al.: New insights into the wheat chromosome 4D structure and virtual gene order, revealed by survey pyrosequencing. Plant Sci. 233, 200-212 (2015)
5.
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)
6.
Choulet, F.* et al.: Structural and functional partitioning of bread wheat chromosome 3B. Science 345:1249721 (2014)
7.
Poursarebani, N.* et al.: Whole Genome Profiling (WGP™) and shotgun sequencing delivers an anchored, gene-decorated, physical map assembly of bread wheat chromosome 6A. Plant J. 79, 334-347 (2014)
8.
Kopecky, D.* et al.: Flow sorting and sequencing meadow fescue chromosome 4F. Plant Physiol. 163, 1323-1337 (2013)
9.
Luo, M.C.* et al.: A 4-gigabase physical map unlocks the structure and evolution of the complex genome of Aegilops tauschii, the wheat D-genome progenitor. Proc. Natl. Acad. Sci. U.S.A. 110, 7940-7945 (2013)
10.
Ma, J.* et al.: Sequence-based analysis of translocations and inversions in bread wheat (Triticum aestivum L.). PLoS ONE 8:e79329 (2013)
11.
Martis, M.M. et al.: Reticulate evolution of the rye genome. Plant Cell 25, 3685-3698 (2013)
12.
Philippe, R.* et al.: A high density physical map of chromosome 1BL supports evolutionary studies, map-based cloning and sequencing in wheat. Genome Biol. 14:R64 (2013)
13.
Hernandez, P.* et al.: Next generation sequencing and syntenic integration of flow-sorted arms of wheat chromosome 4A exposes the chromosome structure and gene content. Plant J. 69, 377-386 (2012)
14.
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)
15.
Mayer, K.F.X. et al.: Unlocking the barley genome by chromosomal and comparative genomics. Plant Cell 23, 1249-1263 (2011)
16.
Wicker, T.* et al.: Frequent gene movement and pseudogene evolution is common to the large and complex genomes of wheat, barley, and their relatives. Plant Cell 23, 1706-1718 (2011)
17.
Mayer, K.F.X. et al.: Gene content and virtual gene order of barley chromosome 1H. Plant Physiol. 151, 496-505 (2009)