Wheat artificial amphiploids involving the Triticum timopheevii genome: their studies, preservation and reproduction

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The effective utilisation of available genetic resources of related species is essential for successful crops breeding and maintaining genetic variability within crops. Bread wheat, the basic cultivated wheat species, is an amphiploid (2n = 6x = 42) and, therefore, the production of new synthetic amphiploids using genomes of related species should reduce the difficulties caused by direct crossings, for example, between hexaploid wheat and diploid relatives. Hence, exploiting synthetic amphiploids is an effective and rapid way of introgressing desirable traits from related species into cultivated wheats. Some of the artificial amphiploids that already exist were produced 80 years ago. Yet little work has been done to highlight potential contamination and/or genetic changes during their conservation by genebanks. Thus, we utilised the electrophoresis of wheat endosperm storage proteins (gliadins) to check such amphiploid authenticity, and also where differences had been previously observed between synthetic wheat amphiploids. In addition, we checked putative amphiploid accessions where Triticum timopheevii (GGAtAt) was recorded as one of the parents. A synthetic species, T. timococcum produced by Kostov, together with a natural T. zhukovskyi found in Georgia (the former Soviet Union) were revealed to be identical according to our assays. The existence of several T. kiharae accessions independently produced by different authors was confirmed, and they exhibited polymorphism for a number of traits, including spike characters (awning, hairy glumes) and growth habit (spring vs. winter). The effective conservation of artificial amphiploids in genebanks is discussed.

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