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United States Department of Agriculture

Agricultural Research Service

Title: Interspecific Hybrids in the Genus Sorghum

Authors
item Kuhlman, L - TAMU
item Burson, Byron
item Rooney, W - TAMU
item Stelly, D - TAMU
item Price, H - TAMU

Submitted to: Plant and Animal Genome
Publication Type: Abstract Only
Publication Acceptance Date: December 16, 2005
Publication Date: January 9, 2006
Citation: Kuhlman, L., Burson, B.L., Rooney, W.L., Stelly, D., Price, H.J. 2006. Interspecific hybrids in the genus Sorghum [abstract]. Plant and Animal Genome XIV Conference. Paper No. P219.

Technical Abstract: Grain sorghum [Sorghum bicolor (L.) Moench] has been improved by public and private breeding programs utilizing germplasm mostly from within the species. Limited genetic resources within the section Eu-Sorghum, containing S. bicolor, S. propinquum, and S. halapense, have been utilized. Genetic resources beyond the Eu-Sorghum section, 21 species in 4 sections, have never been used because of pollen-pistil incompatibilities between the wild species and S. bicolor. By crossing an accession of S. bicolor (2n=20) containing the iap allele, which allows alien pollen tube growth, with S. macrospermum (2n=40), 20 interspecific hybrids were recovered. These hybrids were intermediate to the parents in chromosome number (2n =30) and overall morphology. Meiosis in both parents was regular; S. bicolor had 10 bivalents per pollen mother cell (PMC) and S. macrospermum had an average of 19.89 bivalents per PMC. Six hybrids were studied cytologically and meiosis was irregular with the chromosomes associating primarily as univalents and bivalents. There was an average of 3.54 bivalents per PMC, with a range of 0-8 bivalents, 98% were rods. These bivalents cannot be attributed to autosyndesis, thus pairing is likely between members of S. bicolor and S. macrospermum genomes. Pollen stainability was very low with only 5 fully stained pollen grains observed in approximately 20,000 examined, indicating normal gametic formation is rare. Backcrosses onto cytoplasmic male sterile S. bicolor, using pollen from the interspecific hybrid, resulted in 14 putative BC1F1 plants. The production of backcrosses indicates that genomic introgression of S. macrospermum into S. bicolor is possible.

Last Modified: 11/28/2014
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