Abstract
BackgroundTeosinte ear bears single spikelet, whereas maize ear bears paired spikelets, doubling the number of grains in each cupulate during maize domestication. In the past 20 years, genetic analysis of single vs. paired spikelets (PEDS) has been stagnant. A better understanding of genetic basis of PEDS could help fine mapping of quantitative trait loci (QTL) and cloning of genes.ResultsIn this study, the advanced mapping populations (BC3F2 and BC4F2) of maize × teosinte were developed by phenotypic recurrent selection. Four genomic regions associated with PEDS were detected using QTL-seq, located on 194.64–299.52 Mb, 0–162.80 Mb, 12.82–97.17 Mb, and 125.06–157.01 Mb of chromosomes 1, 3, 6, and 8, respectively. Five QTL for PEDS were identified in the regions of QTL-seq using traditional QTL mapping. Each QTL explained 1.12–38.05% of the phenotypic variance (PVE); notably, QTL qPEDS3.1 with the average PVE of 35.29% was identified in all tests. Moreover, 14 epistatic QTL were detected, with the total PVE of 47.57–66.81% in each test. The QTL qPEDS3.1 overlapped with, or was close to, one locus of 7 epistatic QTL. Near-isogenic lines (NILs) of QTL qPEDS1.1, qPEDS3.1, qPEDS6.1, and qPEDS8.1 were constructed. All individuals of NIL-qPEDS6.1(MT1) and NIL-qPEDS8.1(MT1) showed paired spikelets (PEDS = 0), but the flowering time was 7 days shorter in the NIL-qPEDS8.1(MT1). The ratio of plants with PEDS > 0 was low (1/18 to 3/18) in the NIL-qPEDS1.1(MT1) and NIL-qPEDS3.1(MT1), maybe due to the epistatic effect.ConclusionOur results suggested that major QTL, minor QTL, epistasis and photoperiod were associated with the variation of PEDS, which help us better understand the genetic basis of PEDS and provide a genetic resource for fine mapping of QTL.
Highlights
Teosinte ear bears single spikelet, whereas maize ear bears paired spikelets, doubling the number of grains in each cupulate during maize domestication
The flowering times of plants of Near-isogenic lines (NILs)-qPEDS8.1(MT1) were ~ 7 days earlier compared with SICAU1212. These results indicated that the ratio of plant with paired spikelets (PEDS) > 0 was low (1/18–3/18) or 0 in each NIL, which was not conducive to fine mapping of quantitative trait loci (QTL)
In the present study, to accurately investigate single and paired spikelets, a two-ranked maize were chosen to cross to teosinte to develop the advanced mapping populations (BC3F2 and BC4F2)
Summary
Teosinte ear bears single spikelet, whereas maize ear bears paired spikelets, doubling the number of grains in each cupulate during maize domestication. In the past 20 years, genetic analysis of single vs paired spikelets (PEDS) has been stagnant. Improvement in grain yield was one of the main goals during maize domestication [1]. The single spikelets in teosinte ear were completely transformed. The transformation of single spikelet into paired spikelets could double the kernel number, which was one of the key steps in maize domestication. Dissecting the genetic architecture of single vs paired spikelets could improve our understanding about procedures of maize domestication and the genetic mechanism of yield improvement. Studying of single vs paired spikelets has not progressed much in the past 20 years, and the genetic basis of single vs paired spikelets remains poorly known
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