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Genetic diversity, distribution and domestication history of the neglected GGAtAt genepool of wheat.

Ekaterina D BadaevaFedor A KonovalovHelmut KnüpfferAgostino FricanoAlevtina S RubanZakaria KehelSvyatoslav A ZoshchukSergei A SurzhikovKerstin NeumannAndreas GranerKarl HammerAnna FilatenkoAmy BogaardGlynis JonesHakan ÖzkanBenjamin Kilian
Published in: TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik (2021)
We present a comprehensive survey of cytogenetic and genomic diversity of the GGAtAt genepool of wheat, thereby unlocking these plant genetic resources for wheat improvement. Wheat yields are stagnating around the world and new sources of genes for resistance or tolerances to abiotic traits are required. In this context, the tetraploid wheat wild relatives are among the key candidates for wheat improvement. Despite its potential huge value for wheat breeding, the tetraploid GGAtAt genepool is largely neglected. Understanding the population structure, native distribution range, intraspecific variation of the entire tetraploid GGAtAt genepool and its domestication history would further its use for wheat improvement. The paper provides the first comprehensive survey of genomic and cytogenetic diversity sampling the full breadth and depth of the tetraploid GGAtAt genepool. According to the results obtained, the extant GGAtAt genepool consists of three distinct lineages. We provide detailed insights into the cytogenetic composition of GGAtAt wheats, revealed group- and population-specific markers and show that chromosomal rearrangements play an important role in intraspecific diversity of T. araraticum. The origin and domestication history of the GGAtAt lineages is discussed in the context of state-of-the-art archaeobotanical finds. We shed new light on the complex evolutionary history of the GGAtAt wheat genepool and provide the basis for an increased use of the GGAtAt wheat genepool for wheat improvement. The findings have implications for our understanding of the origins of agriculture in southwest Asia.
Keyphrases
  • optical coherence tomography
  • climate change
  • gene expression
  • transcription factor