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L. Rebordinos, M. Vega (1988)
Gene Duplication in the Structural Gene for a Glutamate Oxaloacetate Transaminase Zone (GOT 1) in SecaleJournal of Heredity, 79
G. Melz, P. Dill (1988)
Genetic Analysis of Rye (Secale cereale L.): Genetics and Location of the Genes gd and Ha3 of the Mutant “Grass Dwarfness,”Arch. Züchtungsforsch., 6
P. Masojc´, B. Mys´ków, P. Milczarski (2001)
Extending a RFLP-based genetic map of rye using random amplified polymorphic DNA (RAPD) and isozyme markersTheoretical and Applied Genetics, 102
(1995)
Genetic Mapping in Rye (Secale cereale L.)
(1991)
A Map of Rye Chromosome 2 R Using Isozyme and Morphological Markers , Theor
S. Malyshev, V. Korzun, A. Voylokov, V. Smirnov, A. Börner (2001)
Linkage mapping of mutant loci in rye (Secale cereale L.)Theoretical and Applied Genetics, 103
V. Korzun, A. Börner, G. Melz (1996)
RFLP mapping of the dwarfing (Ddw1) and hairy peduncle (Hp) genes on chromosome 5 of rye (Secale cereale L.)Theoretical and Applied Genetics, 92
P. Wehling (1991)
Inheritance, linkage relationship and chromosomal localization of the glutamate oxaloacetate transaminase, acid phosphatase and diaphorase isozyme genes in Secale cereale L.Theoretical and Applied Genetics, 82
R. Allard (1956)
Formulas and tables to facilitate the calculation of recombination values in heredity, 24
S.N. Priyatkina, A. Linz, T.F. Fam, A.V. Voylokov (1994)
Proc. 7th Int. Congr. Isozymes
L. Rebordinos, M. Pérez de la Vega (1988)
Gene Duplication in the Structural Gene for Glutamate Oxaloacetate Transaminase Zone (GOT1)Secale, J. Hered., 79
J.D. Franckowiak (1997)
Revised Linkage Maps for Morphological Markers in BarleyHordeum vulgare, Barley Genet. Newslett., 26
(1994)
The Use of Heterochromatin Markers in Genetic Analysis of Rye Secale cereale L
V. Korzun, S. Malyshev, A. Voylokov, A. Börner (2001)
A genetic map of rye (Secale cereale L.) combining RFLP, isozyme, protein, microsatellite and gene lociTheoretical and Applied Genetics, 102
N. Tinker, D. Mather, M. Fortin (1994)
Pooled DNA for linkage analysis: practical and statistical considerations.Genome, 37 6
X. Ma, M. Wanous, K. Houchins, M. Milla, P. Goicoechea, Z. Wang, M. Xie, J. Gustafson (2001)
Molecular linkage mapping in rye (Secale cereale L.)Theoretical and Applied Genetics, 102
(1986)
Genetische Analyse und chromosomale Lokalisation von Isoenzymloci beim Roggen
R. Schlegel, G. Melz, V. Korzun (2004)
Genes, marker and linkage data of rye (Secale cereale L.): 5th updated inventoryEuphytica, 101
V.G. Smirnov, S.P. Sosnikhina (1984)
Genetika rzhi
(1984)
Genetika rzhi (Rye Genetics), Leningrad: Leningr
Eberhard Weber, G. Wricke (1994)
Genetic markers in plant breeding
J. Vries, J. Sybenga (1984)
Chromosomal location of 17 monogenically inherited morphological markers in rye (Secale cereale L.) using the translocation tester set, 92
C. Benito, C. Zaragoza, F. Gallego, A. Peña, A. Figueiras (1991)
A map of rye chromosome 2R using isozyme and morphological markersTheoretical and Applied Genetics, 82
J. Franckowiak (1996)
REVISED LINKAGE MAPS FOR MORPHOLOGICAL MARKERS IN BARLEY, HORDEUM VULGARE, 26
M. Lorieux, B. Goffinet, X. Perrier, D. León, C. Lanaud (2004)
Maximum-likelihood models for mapping genetic markers showing segregation distortion. 2. F2 populationsTheoretical and Applied Genetics, 90
(1994)
Isozyme Markers in the Genetic Studies of Rye Secale cereale L., Isozymes: Organization and Roles in Evolution, Genetics and Physiology
Data on linkage of 12 rye genes controlling morphological traits (el, Vs, ln, w, np, ct2, Hs, Ddw, cb, mn, vi1, mp) with one or several isozyme markers of individual rye chromosomes (2R–7R) are presented. Linkage of the following gene pairs was established: chromosome 2R: Est3/5–el, el–β-Glu, Sod2–el, Sod2–Vs; chromosome 3R: ln–Got4; chromosome 4R: w–Got1, np–Got1; chromosome 5R: Est4–ct2, Est6/9–ct2, ct2–Est2, ct2–Aco2, Est2–Hs, Aco2–Hs, Est2–Ddw, Aco2–Ddw; chromosome 6R:Lap2–cb, cb–Aco1, Est10–mn; chromosome 7R: Acph2/3–vi1, Got2–vi1, mp–Acph2/3. The reasons for mapping a very small number of genes in rye in spite of high intraspecific variability of this species are discussed. An approach is suggested to improve this situation by simultaneous identification and mapping of all diverse spontaneous mutations maintained in heterozygous state in various rye cultivars.
Russian Journal of Genetics – Springer Journals
Published: Oct 18, 2004
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