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New Genetic Map of Rye Composed of PCR-based Molecular Markers and Its Alignment with the Reference Map of the DS2 X RXL10 Intercross

Overview
Journal J Appl Genet
Publisher Springer
Specialty Genetics
Date 2007 Feb 3
PMID 17272857
Citations 20
Authors
Pawel Milczarski
Aneta Banek-Tabor
Karolina Lebiecka
Stefan Stojalowski
Beata Myskow
Piotr Masojc
Affiliations
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Abstract

A new genetic map of rye, developed by using the 541 x Ot1-3 F2 intercross, consists of 148 marker loci, including 99 RAPDs, 18 SSRs, 14 STSs, 9 SCARs and 7 ISSRs, and spans the distance of 1401.4 cM. To the 7 rye chromosomes, 8 linkage groups were assigned and compared with the reference map of the DS2 x RXL10 F2 intercross by using 24 common markers. The 2 combined maps contain altogether 611 marker loci (70-109 per chromosome) and constitute a substantial source of information useful for further genomic studies in rye. From 21 to 37 RAPD marker loci are distributed randomly along each chromosome length and their total number for all 7 rye chromosomes is 177. This abundance of RAPD marker loci in the rye genetic map can be exploited for development of SCARs in regions containing important genes or QTL.

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References
1.
Masojc P, Milczarski P . Mapping QTLs for alpha-amylase activity in rye grain. J Appl Genet. 2005; 46(2):115-23. View
2.
Mago R, Spielmeyer W, Lawrence J, Lagudah S, Ellis G, Pryor A . Identification and mapping of molecular markers linked to rust resistance genes located on chromosome 1RS of rye using wheat-rye translocation lines. Theor Appl Genet. 2003; 104(8):1317-1324. DOI: 10.1007/s00122-002-0879-3. View
3.
Gonzalez C, Camacho M, Benito C . Chromosomal location of 46 new RAPD markers in rye (Secale cereale L.). Genetica. 2002; 115(2):205-11. DOI: 10.1023/a:1020176926378. View
4.
Lander E, Green P, ABRAHAMSON J, Barlow A, Daly M, Lincoln S . MAPMAKER: an interactive computer package for constructing primary genetic linkage maps of experimental and natural populations. Genomics. 1987; 1(2):174-81. DOI: 10.1016/0888-7543(87)90010-3. View
5.
Bednarek P, Masojc P, Lewandowska R, Myskow B . Saturating rye genetic map with amplified fragment length polymorphism (AFLP) and random amplified polymorphic DNA (RAPD) markers. J Appl Genet. 2003; 44(1):21-33. View