Abstract

Aegilops tauschii (2n = 2x = 14, genome DD), also known as Tausch’s goatgrass, is the D genome donor of bread or hexaploid wheat Triticum aestivum (2n = 2x = 42, AABBDD genome). It is a rich reservoir of useful genes for biotic and abiotic stress tolerance for wheat improvement. We developed a TILLING (Targeting Induced Local Lesions In Genomes) resource for Ae. tauschii for discovery and validation of useful genes in the D genome of wheat. The population, referred to as TILL-D, was developed with ethyl methanesulfonate (EMS) mutagen. The survival rate in M1 generation was 73%, out of which 22% plants were sterile. In the M2 generation 25% of the planted seeds showed phenotypic mutations such as albinos, chlorinas, no germination, variegated, sterile and partially fertile events, and 2,656 produced fertile M2 plants. The waxy gene was used to calculate the mutation frequency (1/70 kb) of the developed population, which was found to be higher than known mutation frequencies for diploid plants (1/89–1/1000 kb), but lower than that for a polyploid species (1/24–1/51 kb). The TILL-D resource, together with the newly published Ae. tauschii reference genome sequence, will facilitate gene discoveries and validations of agronomically important traits and their eventual fine transfer in bread wheat.

Highlights

  • Hexaploid bread wheat Triticum aestivum (2n = 6x = 42, AABBDD) arose by a hybridization event between cultivated emmer wheat T. turgidum (2n = 4x = 28, AABB) and Aegilops tauschii (2n = 2x = 14, DD) in the south of the Caspian Sea around 8,000 years ago (McFadden and Sears, 1946; Kihara et al, 1965; Wang et al, 2013)

  • We report the development and characterization of a TILLING resource of Ae. tauschii as a tool for gene discovery and validation for D genome of bread wheat

  • Since the goal of this work was to characterize the mutation frequency of the TILL-D resource, we selected the waxy gene that has been extensively used for characterizing various TILLING populations

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Summary

Introduction

Easy crossability and rich diversity of useful genes and alleles make it simple and convenient to use Ae. tauschii for wheat improvement (Gill et al, 2006). Transfer of useful genes from Ae. tauschii to wheat can be done either by direct hybridization or as synthetic hexaploid wheat (McFadden and Sears, 1946; Gill and Raupp, 1987).

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