242
Qi L, Friebe B, Zhang P, Gill BS (2007) Homoeologous recombination, chromosome engineering
and crop improvement. Chromosome Res 15:3–19. doi: 10.1007/s10577-006-1108-8
Raupp WJ, Friebe B, Gill BS (1995) Suggested guidelines for the nomenclature and abbreviation
of the genetic stocks of wheat, Triticum aestivum L. em Thell., and its relatives. Wheat Info
Serv 81:51–55
Riley R, Chapman V (1958) Genetic control of the cytologically diploid behaviour of hexaploid
wheat. Nature 182:713–715. doi: 10.1038/182713a0
Riley R, Chapman V, Johnson R (1968a) The incorporation of alien disease resistance in wheat by
genetic interference with the regulation of meiotic chromosome synapsis. Genet Res Camb
12:198–219. doi: 10.1017/S0016672300011800
Riley R, Chapman V, Johnson R (1968b) Introduction of yellow rust resistance of Aegilops comosa
into wheat by genetically induced homoeologous recombination. Nature 217:383–384.
doi: 10.1038/217383a0
Roberts HF (1929) Plant hybridization before Mendel. Princeton University Press, Princeton,
pp 123–129
Romero MD, Montes MJ, Sin E, Lopez-Brana I, Duce A, Martin-Sanchez JA, Andres MF, Delibes
A (1998) A cereal cyst nematode ( Heterodera avennae Woll.) resistance gene transferred from
Aegilops triuncialis to hexaploid wheat. Theor Appl Genet 96:1135–1140. doi: 10.1007/
s001220050849
Schneider A, Molnar I, Molnar-Lang M (2008) Utilization of Aegilops (goatgrass) species
to widen the genetic diversity of cultivated wheat. Euphytica 163:1–19. doi: 10.1007/
s10681-007-9624-y
Sears ER (1952) Misdivision of univalents in common wheat. Chromosoma 4:535–550.
doi: 10.1007/BF00325789
Sears ER (1956) The transfer of leaf rust resistance from Aegilops umbellulata to wheat.
Brookhaven Symp Biol 9:1–22
Sears ER (1972) Chromosome engineering in wheat. In: Stadler Symposium, vol. 4, University of
Missouri, Columbia, pp 23–38
Sears ER (1976) Genetic control of chromosome pairing in wheat. Annu Rev Genet 10:31–51.
doi: 10.1146/annurev.ge.10.120176.000335
Sears ER (1977) An induced mutant with homoeologous pairing in common wheat. Can J Genet
Cytol 19:585–593. doi: 10.1139/g77-063
Sharma HC, Gill BS (1983) Current status of wide hybridization in wheat. Euphytica 32:17–31.
doi: 10.1007/BF00036860
Sharp PJ, Desai S, Chao S, Gale MD (1988) Isolation, characterization, and applications of a set
of 14 RFLP probes identifying each homoeologous chromosome arm in the Triticeae. In:
Miller TE, Koebner RMD (eds) Proceedings of the 7th International Wheat Genetics
Symposium, Cambridge, UK, 13–19 July, 1988. Institute of Plant Science Research,
Cambridge, UK, pp 639–646
Shepherd KW, Islam AKMR (1988) Fourth compendium of wheat-alien chromosome lines. In:
Miller TE, Koebner RMD (eds) Proceedings of the 7th International Wheat Genetics
Symposium, Cambridge, UK, 13–19 July, 1988. Institute of Plant Science Research,
Cambridge, UK, pp 1373–1398
Stoyanov H (2014) Representatives of genus Aegilops as a source of pathogens resistance.
AgroLife Sci J 3:139–148
Tanguy A-M, Coriton O, Abelard P, Dedryver F, Jahier J (2005) Structure of Aegilops ventricosa
chromosome 6N v , the donor of wheat genes Yr17 , Lr37 , Sr38 , and Cre5. Genome 48:541–546.
doi: 10.1139/g05-001
Tiwari VK, Wang S, Sehgal S, Vrána J, Friebe B, Kubaláková M, Chhuneja P, Doležel J, Akhunov
E, Kalia B, Sabir J, Gill BS (2014) SNP discovery for mapping alien introgressions in wheat.
BMC Genomics 15:273. doi: 10.1186/1471-2164-15-273
P. Zhang et al.