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. 2024 May 3;137(5):117.
doi: 10.1007/s00122-024-04615-y.

Fine mapping of major QTL qshgd1 for spontaneous haploid genome doubling in maize (Zea mays L.)

Tyler L Foster  1 Monika Kloiber-Maitz  2 Laurine Gilles  3 Ursula K Frei  4 Sarah Pfeffer  4 Yu-Ru Chen  4 Somak Dutta  5 Arun S Seetharam  6 Matthew B Hufford  6 Thomas Lübberstedt  4
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Fine mapping of major QTL qshgd1 for spontaneous haploid genome doubling in maize (Zea mays L.)

Tyler L Foster et al. Theor Appl Genet. .

Abstract

A large-effect QTL was fine mapped, which revealed 79 gene models, with 10 promising candidate genes, along with a novel inversion. In commercial maize breeding, doubled haploid (DH) technology is arguably the most efficient resource for rapidly developing novel, completely homozygous lines. However, the DH strategy, using in vivo haploid induction, currently requires the use of mutagenic agents which can be not only hazardous, but laborious. This study focuses on an alternative approach to develop DH lines-spontaneous haploid genome duplication (SHGD) via naturally restored haploid male fertility (HMF). Inbred lines A427 and Wf9, the former with high HMF and the latter with low HMF, were selected to fine-map a large-effect QTL associated with SHGD-qshgd1. SHGD alleles were derived from A427, with novel haploid recombinant groups having varying levels of the A427 chromosomal region recovered. The chromosomal region of interest is composed of 45 megabases (Mb) of genetic information on chromosome 5. Significant differences between haploid recombinant groups for HMF were identified, signaling the possibility of mapping the QTL more closely. Due to suppression of recombination from the proximity of the centromere, and a newly discovered inversion region, the associated QTL was only confined to a 25 Mb region, within which only a single recombinant was observed among ca. 9,000 BC1 individuals. Nevertheless, 79 gene models were identified within this 25 Mb region. Additionally, 10 promising candidate genes, based on RNA-seq data, are described for future evaluation, while the narrowed down genome region is accessible for straightforward introgression into elite germplasm by BC methods.

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