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Novel genotypes of the subtropical grass Eragrostis curvula for the study of apomixis (diplospory) |
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| Authors: | S Cardone P Polci JP Selva M Mecchia S Pessino P Hermann V Cambi P Voigt G Spangenberg V Echenique |
| Institution: | (1) Facultad de Agronomía, (FAUBA), Buenos Aires, Argentina;(2) CERZOS, (CONICET), Buenos Aires, Argentina;(3) Departamento de Agronomía, Universidad Nacional del Sur, Buenos Aires, Argentina;(4) Departamento de Agronomía, (UNS), Buenos Aires, Argentina;(5) Facultad de Ciencias Agrarias, (UNR), Zavalla - Santa Fe, Argentina;(6) Departamento de Biología, (UNS), Bahía Blanca, Argentina;(7) USDA, Agric. Res. Serv., Appalachian Farming Systems Research Center, Beaver, USA;(8) Primary Industries Res. Victoria, Plant Biotechnology Centre, DPI, La Trobe University, La Trobe, Australia |
| Abstract: | The aim of this work was to obtain a series of genetically related lines of Eragrostis curvula with different ploidy levels and reproductive modes, which can be used for the discovery of genes associated to diplospory. E. curvula is a widely cultivated forage grass native to Southern Africa that reproduces naturally by obligate diplosporous apomixis (asexual reproduction by seeds) of the Antennaria type. In vitro culture of immature inflorescences of the apomictic cultivar Tanganyika led to the regeneration of a diploid plant with a particular morphology (plant UNST1122). Embryo sac analysis and progeny tests determined that plant UNST1122 reproduces by sexuality. UNST1122 was cloned by dividing its tillers and a R 1 generation was obtained from seeds after open pollination among the diploid clones. A set of 500 seeds from a diploid R 1 plant was treated with colchicine and two plants showing a duplicated chromosome number (2n = 4x = 40) were obtained (plants UNST1112 and UNST1131). Progeny tests using RAPDs indicated that these plants reproduce also by sexuality. The availability of sexual tetraploid genotypes of E. curvula will allow the production of hybrids with new interesting combinations of agronomic traits and the developing of mapping populations segregating for diplospory. Besides, these genetically related plants with different reproduction modes constitutes an excellent model for the identification of gen(es) involved in diplosporous apomixis by mRNA profiling as well as to study the genomic rearrangements and gene expression alterations associated to changes at ploidy levels. |
| Keywords: | Eragrostis Near-isogenic lines Diplosporous apomixis |
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