189Sears ER (1975) An induced homoeologous pairing mutant in wheat. Genetics 80:s74
Sears ER (1981) Transfer of alien genetic material to wheat. In: Evans LT, Peacock WJ (eds)
Wheat science – today and tomorrow. Cambridge University Press, Cambridge, pp 75–89
Sears ER (1984) Mutations in wheat that raise the level of meiotic chromosome pairing. In:
Gustafson JP (ed) Gene manipulation in plant improvement. Proc 16th Stadler Genetics Symp,
Columbia, MO. Plenum Press, New York, NY, pp 295–300
Sears ER (1993) Use of radiation to transfer alien chromosome segments to wheat. Crop Sci
33:897–901
Sears ER, Sears LMS (1978) The telocentric chromosomes of common wheat. In: Ramanujam S
(ed) Proc 5 th In Wheat Genet Symp New Delhi, India. Indian Agric. Res. Institute, New Delhi,
pp 380–407
Sebesta EE, Wood EA (1978) Transfer of greenbug resistance from rye to wheat with X-rays.
Agron Abstr ASA, Madison WI, pp 61–62
Sharma S, Bhat P, Ehdaie B, Close TJ et al (2009) Integrated genetic map and genetic analysis of
a region associated with root traits on the short arm of rye chromosome 1 in wheat. Theor Appl
Genet 119:783–793
Sharma S, Xu S, Ehdaie B, Hoops A et al (2011) Dissection of QTL effects for root traits using a
chromosome arm-specifi c mapping population in bread wheat. Theor Appl Genet
122:759–769
Shchapova AI, Kravtsova LA (1982) The production of wheat-rye substitution lines by using the
Giemsa staining technique. Cereal Res Commun 10:33–39
Silkova OG, Dobrovolskaya OB, Dubovets NI, Adonina IG et al (2006) Production of wheat–rye
substitution lines and identifi cation of chromosome composition of karyotypes using
C-banding, GISH, and SSR markers. Rus J Genet 42:645–653
Singh RP, Huerta-Espino J, Rajaram S, Crossa J (1998) Agronomic effects from chromosome
translocations 7DL.7Ag and 1BL.1RS in spring wheat. Crop Sci 38:27–33
Villareal RL, del Toro E, Rajaram S, Mujeeb-Kazi A (1996) The effect of chromosome 1AL/1RS
translocation on agronomic performance of 85 F2-derived F6 lines from three Triticum aesti-
vum L crosses. Euphytica 89:363–369
Villareal RL, Banuelos O, Mujeeb-Kazi A (1997) Agronomic performance of related durum
( Triticum turgidum L) stocks possessing the chromosome substitution T1BL.1RS. Crop Sci
37:1735–1740
Villareal RL, Banuelos O, Mujeeb-Kazi A, Rajaram S (1998) Agronomic performance of chromo-
some 1B and T1BL.1RS near-isolines in the spring breadwheat Seri M82. Euphytica
103:195–202
Waines JG, Ehdaie B (2005) Optimizing root characters and grain yield in wheat. Czech J Genet
Plant Breed 41:326–330
Waines JG, Ehdaie B (2007) Domestication and crop physiology: roots of Green Revolution
wheat. Ann Bot 100:991–998
W iśniewska H, Kwiatek M, Kulak-Książczyk S, Apolinarska B (2013) Introgression of A- and
B-genome of tetraploid triticale chromatin into tetraploid rye. J Appl Genet 54:435–440
Wulf BBH, Moscou MJ (2014) Strategies for transferring resistance into wheat: from wide crosses
to GM cassettes. Front Plant Sci 5:692. doi: 10.3389/fpls.2014.0692
Yang ZJ, Li GR, Jia JQ, Zeng X et al (2009) Molecular cytogenetic characterization of wheat–
Secale africanum amphiploids and derived introgression lines with stripe rust resistance.
Euphytica 167:197–202
Zeller FJ, Fuchs E (1983) Cytologie und Krankheitsresistenz einer 1A/1R- un mehrerer 1B/1R-
Weizen- Roggen-Translokationsorten. Z Pfl anzenzuchtg 90:285–296
Zeller FJ, Hsam SLK (1983) Broadening the genetic variability of cultivated wheat by utilizing rye
chromatin. In: Sakamoto S (ed) Proc 6 th Int Wheat Genet Symp. Japan, Kyoto, pp 161–173
Zhang P, Friebe B, Lukaszewski AJ, Gill BS (2001) The centromere structure in Robertsonian
translocation chromosomes indicates that centric breakage-fusion can occur at various loca-
tions within the primary constriction. Chromosoma 110:335–344
7 Introgressions Between Wheat and Rye