| Autor: |
García, A. V., Ortiz, A. M., Silvestri, M. C., Custodio, A. R., Moretzsohn, M. C., Lavia, G. I. |
| Zdroj: |
Crop Science; September 2020, Vol. 60 Issue: 5 p2420-2436, 17p |
| Abstrakt: |
Unreduced (2n) gametes are the driving force that leads to polyploidization of plants in nature and an important tool for ploidy breeding. Peanut (Arachis hypogaeaL., Leguminosae) seems most likely to have originated by sexual polyploidization through interspecific hybridization between the wild diploid relatives—A. duranensisKrapov. & W.C. Greg. and A. ipaënsisKrapov. & W.C. Greg—and subsequent binding of the unreduced gametes in the hybrid. Therefore, aiming to contribute to understanding the event of polyploid origin of this important crop, we made diploid hybrids between A. duranensisand A. ipaënsisand then investigated the production of unreduced gametes in the hybrids by analyzing the size range of pollen, the constitution of the sporads, and the microsporogenesis process. The meiotic abnormalities found, such as persistent bridges, tripolar spindles, and cytomixis processes, would lead to the formation of restitution nuclei in both the first and second meiotic division. These failures in the regularity of meiosis lead to the formation of dyads and triads, and consequently to 2npollen grains. These findings constitute the first evidence of the formation of unreduced gametes in intergenomic hybrids obtained between the wild progenitors of A. hypogaeaand enable us to propose a model of origin of the crop through sexual polyploidization. |
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