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., Colmer, T.D., Anderson, J.M., Francki, M.G. 2005. EST-Derived SSR markers from defined regions of the wheat genome to identify Lophopyrum elongatum -specific loci. Genome 48: 811–822. Francki M

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-tolerant Lophopyrum elongatum . Genome 34 :961–974. Dvorak J. Salt tolerance and ionic relations of wheat as affected by individual chromosomes of salt-tolerant Lophopyrum elongatum

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early stages of genetic salt-stress response in salt-tolerant Lophopyrum elongatum, salt-sensitive and their amphiploid. - Plant physiol . 103 : 257-265. Characterization of the early stages of genetic salt-stress response in

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Zhang, H.B., Dvořák, J. 1990. Isolation of repeated DNA sequences from Lophopyrum elongatum for detection of Lophopymm chromatin in wheat genomes. Genome 33 :283–293. Dvořák J

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Kasai, K., Fukayama, H., Uchida, N., Mori, N., Yasuda, T., Oji, Y., Nakamura, C. 1998: Salinity tolerance in Triticum aestivum-Lophopyrum elongatum amphiploid and 5E disomic addition line evaluated by NaCl effects on photosynthesis and respiraton

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., Harrison, P., Pearce, R. S. (2000) Expression of dehydration-stress-related genes in the crown of wheatgrass species [ Lophopyrum elongatum (Host) A. Love and Agropyron desertorum (Fisch. ex Link.) Schult.] having contrasting acclimation to salt, cold

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identified in Triticum aestivum × Lophopyrum elongatum disomic substitution lines. Euphytica 172 :251–262. Goodwin S. Potential new genes for resistance to Mycosphaerella graminicola

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