Abstract
Apomixis, or clonal propagation through seed, is a trait identified within multiple species of the grass family (Poaceae). The genetic locus controlling apomixis in Pennisetum squamulatum (syn Cenchrus squamulatus) and Cenchrus ciliaris (syn Pennisetum ciliare, buffelgrass) is the apospory-specific genomic region (ASGR). Previously, the ASGR was shown to be highly conserved but inverted in marker order between P. squamulatum and C. ciliaris based on fluorescence in situ hybridization (FISH) and varied in both karyotype and position of the ASGR on the ASGR-carrier chromosome among other apomictic Cenchrus/Pennisetum species. Using in silico transcript mapping and verification of physical positions of some of the transcripts via FISH, we discovered that the ASGR-carrier chromosome from P. squamulatum is collinear with chromosome 2 of foxtail millet and sorghum outside of the ASGR. The in silico ordering of the ASGR-carrier chromosome markers, previously unmapped in P. squamulatum, allowed for the identification of a backcross line with structural changes to the P. squamulatum ASGR-carrier chromosome derived from gamma irradiated pollen.
Highlights
Most current grass species are found to be derived from a common ancestor that lived about 50–80 million years ago
Our analysis demonstrates that the apospory-specific genomic region (ASGR)-carrier chromosome from P. squamulatum, outside the ASGR boundary, is collinear with chromosome 2 of sorghum and foxtail millet
The longest available ASGR-carrier chromosome contig was used for BlastN in silico analysis against the foxtail millet (NW_004675962.1) and sorghum (NC_012877.1) genomes at the National Center for Biotechnology Information (NCBI)
Summary
Most current grass species are found to be derived from a common ancestor that lived about 50–80 million years ago. Forty-nine contigs, generated from the assembly of 454 sequences derived from dissected apomictic ovules, were mapped to the ASGR-carrier chromosome via SCAR, CAPS or SSCP markers [13]. The predicted in silico positions of 7 contigs from the P. squamulatum ASGR-carrier chromosome, based on hits to the sorghum and foxtail millet genome, were verified by cytogenetic mapping of BAC clones containing the SCAR marker for the ASGR-carrier chromosome contigs.
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