Abstract
A single chromosome of the grass species Festuca pratensis has been introgressed into Lolium perenne to
produce a diploid monosomic substitution line (2n 2x 14). In this line recombination occurs
throughout the length of the F. pratensis/L. perenne bivalent. The F. pratensis chromosome and recombinants
between it and its L. perenne homeologue can be visualized using genomic in situ hybridization (GISH).
GISH junctions represent the physical locations of sites of recombination, enabling a range of recombinant
chromosomes to be used for physical mapping of the introgressed F. pratensis chromosome. The physical
map, in conjunction with a genetic map composed of 104 F. pratensis-specific amplified fragment length
polymorphisms (AFLPs), demonstrated: (1) the first large-scale analysis of the physical distribution of
AFLPs; (2) variation in the relationship between genetic and physical distance from one part of the
F. pratensis chromosome to another (e.g., variation was observed between and within chromosome arms);
(3) that nucleolar organizer regions (NORs) and centromeres greatly reduce recombination; (4) that
coding sequences are present close to the centromere and NORs in areas of low recombination in plant
species with large genomes; and (5) apparent complete synteny between the F. pratensis chromosome and
rice chromosome 1.
Original language | English |
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Pages (from-to) | 315-324 |
Number of pages | 10 |
Journal | Genetics |
Volume | 161 |
Publication status | Published - 2002 |