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Novel Tetraploid Triticale (Einkorn Wheat × Rye)-A Source of Stem Rust Resistance.

Michał Tomasz KwiatekAleksandra NoweiskaRoksana BobrowskaAdrianna CzapiewskaMert AygünFrancois d'Assise MunyamahoroSylwia MikołajczykAgnieszka TomkowiakDanuta Kurasiak-PopowskaPaweł Poślednik
Published in: Plants (Basel, Switzerland) (2023)
Among cereals, triticale (× Trititcoseale Wittmack ex A. Camus) represents a number of advantages such as high grain yield even in marginal environments, tolerance to drought, cold and acid soils, as well as lower production costs. Together with high biomass of grain and straw, triticale is also considered as an industrial energy crop. As an artificial hybrid, it has not evolved naturally, which is reflected in narrow genetic diversity causing a resistance collapse in recent years. Here, we describe a novel, synthetic tetraploid triticale, which was developed by the crossing of rye ( Secale cereale L.) with einkorn wheat ( Triticum monococcum spp. monococcum ), which possess Sr35 stem rust resistance gene. Three subsequent generations of alloploids were obtained by chromosome doubling followed by self-pollination. The cytogenetic analyses revealed that the amphiploids possess a set of 28 chromosomes (14 of Am-genome and 14 of R-genome). The values of the most important yield-shaping traits for these tetraploid triticale form, including thousand-grain weight, plant height and stem length were higher compared to parental genotypes, as well as standard hexaploid triticale cultivars. This study shows that this tetraploid triticale genetic stock can be an interesting pre-breeding germplasm for triticale improvement or can be developed as a new alternative crop.
Keyphrases
  • genome wide
  • climate change
  • genetic diversity
  • copy number
  • body mass index
  • wastewater treatment
  • dna methylation
  • physical activity
  • risk assessment
  • single cell
  • human health
  • genome wide identification