Map-based cloning of the fertility restoration locus Rfm1 in cultivated barley (Hordeum vulgare)

Carine Rizzolatti,Pierre A Pin,Jan J L Gielen,Hakim Mireau,Hélène Bergès,Françoise Budar,Nathalie Rodde,Edouard Tatara,Paul Bury

doi:10.1007/s10681-017-2056-4

Abstract

Hybridization technology has proven valuable in enhancing yields in many crops, but was only recently adopted in the small grain cereals. Hybrid varieties in barley (Hordeum vulgare) rely on the cytoplasmic male sterility (CMS) system msm1 derived from Hordeum vulgare ssp. spontaneum. The major restorer gene described for the msm1 system is known as Rfm1 and maps to the top of chromosome 6H. To gain further insight into mechanisms underlying male fertility restoration in barley, we used a map-based cloning approach to identify the nuclear gene involved in the restoration mechanism of this hybridization system. Taking advantage of the available genomic resources in barley in combination with a custom-made non-gridded BAC library developed from a restorer line, we cloned and sequenced the Rfm1 restorer locus. The characterization and annotation of the nucleotide sequence for the Rfm1 restorer allele allowed for the identification of the candidate gene for Rfm1. The Rfm1 locus carries a tandem repeat of a gene encoding a pentatricopeptide repeat (PPR) protein. Surprisingly, Rfm1 belongs to the PLS-DYW subfamily of PPR genes known for their involvement in RNA editing in plants organelles, but that to date have not been identified as restorer genes.

Highlights

Barley (Hordeum vulgare) ranks amongst the most important small grain cereals grown worldwide and is used for both human and animal feeding
A mapping population of 2184 F2 individuals was derived from a cross between restorer line Re08 (CMS; Rfm1/Rfm1) and the cultivar Laverda (N; rfm1/ rfm1), using Laverda as pollinator following the emasculation of Re08 mother plants
Male fertility restoration of the F2 plants was assessed by scoring for visual anther extrusion and by measuring seed set on bagged ears

Summary

Introduction

Barley (Hordeum vulgare) ranks amongst the most important small grain cereals grown worldwide and is used for both human and animal feeding. Because of its diploid genome, barley is considered a model crop for the Triticeae tribe, which includes wheat (Triticum aestivum). 84% of the genome is composed of mobile elements or other repeated sequences (Mayer et al 2012; Mascher et al 2017). The majority of these consists of retrotransposons, 99.6% of which are long terminal repeat (LTR) retrotransposons. The number of gene loci including protein-coding genes, non-coding RNAs, pseudogenes and transcribed transposons is estimated at approximately eighty thousand, 39,734 of which are considered highconfidence genes

Methods

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Conclusion