Genome scans capture key adaptation and historical hybridization signatures in tetraploid wheat

Author:

Sertse Demissew12ORCID,Haile Jemanesh K.34,Sari Ehsan5,Klymiuk Valentyna3ORCID,N'Diaye Amidou3ORCID,Pozniak Curtis J.3ORCID,Cloutier Sylvie6ORCID,Kagale Sateesh1

Affiliation:

1. Aquatic and Crop Resource Development National Research Council Canada Saskatoon Saskatchewan Canada

2. Department of Plant Science Faculty of Agricultural and Food Sciences University of Manitoba Winnipeg Manitoba Canada

3. Crop Development Centre University of Saskatchewan Saskatoon Saskatchewan Canada

4. Canola Council of Canada Crop Production and Innovation Saskatoon, SK Canada

5. Department of Microbiology and Plant Pathology University of California Riverside California USA

6. Ottawa Research and Development Centre Agriculture and Agri‐Food Canada Ottawa Ontario Canada

Abstract

AbstractTetraploid wheats (Triticum turgidum L.), including durum wheat (T. turgidum ssp. durum (Desf.) Husn.), are important crops with high nutritional and cultural values. However, their production is constrained by sensitivity to environmental conditions. In search of adaptive genetic signatures tracing historical selection and hybridization events, we performed genome scans on two datasets: (1) Durum Global Diversity Panel comprising a total of 442 tetraploid wheat and wild progenitor accessions including durum landraces (n = 286), domesticated emmer (T. turgidum ssp. dicoccum (Schrank) Thell.; n = 103) and wild emmer (T. turgidum ssp. dicoccoides (Korn. ex Asch. & Graebn.) Thell.; n = 53) wheats genotyped using the 90K single nucleotide polymorphism (SNP) array, and (2) a second dataset comprising a total 121 accessions of nine T. turgidum subspecies including wild emmer genotyped with >100 M SNPs from whole‐genome resequencing. The genome scan on the first dataset detected six outlier loci on chromosomes 1A, 1B, 3A (n = 2), 6A, and 7A. These loci harbored important genes for adaptation to abiotic stresses, phenological responses, such as seed dormancy, circadian clock, flowering time, and key yield‐related traits, including pleiotropic genes, such as HAT1, KUODA1, CBL1, and ZFN1. The scan on the second dataset captured a highly differentiated region on chromosome 2B that shows significant differentiation between two groups: one group consists of Georgian (T. turgidum ssp. paleocolchicum A. Love & D. Love) and Persian (T. turgidum ssp. carthlicum (Nevski) A. Love & D. Love) wheat accessions, while the other group comprises all the remaining tetraploids including wild emmer. This is consistent with a previously reported introgression in this genomic region from T. timopheevii Zhuk. which naturally cohabit in the Georgian and neighboring areas. This region harbored several adaptive genes, including the thermomorphogenesis gene PIF4, which confers temperature‐resilient disease resistance and regulates other biological processes. Genome scans can be used to fast‐track germplasm housed in gene banks and in situ; which helps to identify environmentally resilient accessions for breeding and/or to prioritize them for conservation.

Publisher

Wiley

Subject

Plant Science,Agronomy and Crop Science,Genetics

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