Uneven distribution of expressed sequence tag loci on maize pachytene chromosomes

Examining the relationships among DNA sequence, meiotic recombination, and chromosome structure at a genome-wide scale has been difficult because only a few markers connect genetic linkage maps with physical maps. Here, we have positioned 1195 genetically mapped expressed sequence tag (EST) markers...

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Bibliographic Details
Published in:Genome Research 2006-01, Vol.16 (1), p.115-122
Main Authors: Anderson, Lorinda K, Lai, Ann, Stack, Stephen M, Rizzon, Carene, Gaut, Brandon S
Format: Article
Language:English
Subjects:
Chromosome Mapping - methods
Chromosome Structures - genetics
Chromosomes, Plant - genetics
Evolution, Molecular
Expressed Sequence Tags
Genome, Plant - genetics
Letters
Pachytene Stage - genetics
Recombination, Genetic - genetics
Zea mays
Zea mays - genetics
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Summary:Examining the relationships among DNA sequence, meiotic recombination, and chromosome structure at a genome-wide scale has been difficult because only a few markers connect genetic linkage maps with physical maps. Here, we have positioned 1195 genetically mapped expressed sequence tag (EST) markers onto the 10 pachytene chromosomes of maize by using a newly developed resource, the RN-cM map. The RN-cM map charts the distribution of crossing over in the form of recombination nodules (RNs) along synaptonemal complexes (SCs, pachytene chromosomes) and allows genetic cM distances to be converted into physical micrometer distances on chromosomes. When this conversion is made, most of the EST markers used in the study are located distally on the chromosomes in euchromatin. ESTs are significantly clustered on chromosomes, even when only euchromatic chromosomal segments are considered. Gene density and recombination rate (as measured by EST and RN frequencies, respectively) are strongly correlated. However, crossover frequencies for telomeric intervals are much higher than was expected from their EST frequencies. For pachytene chromosomes, EST density is about fourfold higher in euchromatin compared with heterochromatin, while DNA density is 1.4 times higher in heterochromatin than in euchromatin. Based on DNA density values and the fraction of pachytene chromosome length that is euchromatic, we estimate that approximately 1500 Mbp of the maize genome is in euchromatin. This overview of the organization of the maize genome will be useful in examining genome and chromosome evolution in plants.
ISSN:1088-9051
1549-5469
1549-5477
DOI:10.1101/gr.4249906