Hybrid mimics and hybrid vigor in
            <i>Arabidopsis</i>

Wang, Li; Greaves, Ian K.; Groszmann, Michael; Wu, Li Min; Dennis, Elizabeth S.; Peacock, W. James

doi:10.1073/pnas.1514190112

Cited by 57 publications

(58 citation statements)

References 44 publications

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“…Altered hormone abscisic acid (ABA) and defense response have also been reported in rice hybrids (5). Despite the contrasting phenotypes of the F1 and F2 populations, we were able to develop "pure breeding" F5/F6 lines with phenotypes comparable to the F1 hybrids (hybrid mimics) (2). The hybrid mimic lines retained the production properties of the F1 hybrids in biomass and had phenotypic uniformity in the F5/F6 and subsequent generations.…”

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confidence: 87%

“…The small phenotype line has each of these segments derived from the genome of the alternative parent, so one or more loci needed for the large hybrid mimic phenotype are likely to be on each segment. recurrent phenotypic selection program, plants with a phenotype similar to the selected F2 plant were produced in a few generations (2). We have generated six pure breeding F6 plant lines and assessed the growth patterns of these lines against those of the parents and F1 hybrids (Fig.…”

Section: Significancementioning

confidence: 99%

“…In a previous paper (2), transcriptome analyses showed that in the hybrids, most genes are expressed at the same levels as in the parents. Compared with the average level of gene expression in the parents, ∼2,000 genes (6% of the genome) have altered expression in the hybrids and are likely to be involved in the generation of the hybrid vigor phenotype.…”

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confidence: 91%

“…These characteristics also apply to the F1 and F2 populations in Arabidopsis hybrids (2). The processes of capture of light and assimilation of CO 2 into photosynthate are the same in the hybrid and parents and as the hybrids have larger leaves than their parents, they produce more photosynthate (3).…”

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confidence: 95%

“…Transcriptome analysis of the hybrid mimics showed that many differentially expressed genes in the F1 hybrids maintain their expression levels in the hybrid mimics. In contrast to the heterozygous F1 hybrids, the genomes of the hybrid mimics are homozygous for chromosome segments contributed by both parents (2).…”

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confidence: 96%

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PIF4-controlled auxin pathway contributes to hybrid vigor in Arabidopsis thaliana

Wang

Greaves

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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F1 hybrids in Arabidopsis and crop species are uniform and high yielding. The F2 generation loses much of the yield advantage and the plants have heterogeneous phenotypes. We generated pure breeding hybrid mimic lines by recurrent selection and also selected a pure breeding small phenotype line. The hybrid mimics are almost completely homozygous with chromosome segments from each parent. Four particular chromosomal segments from C24 and 8 from Ler were present in all of the hybrid mimic lines, whereas in the F6 small phenotype line, the 12 segments were each derived from the alternative parent. Loci critical for promoting hybrid vigor may be contained in each of these 12 conserved segments. We have identified genes with similar altered expression in hybrid mimics and F1 plants but not in the small phenotype line. These genes may be critical for the generation of hybrid vigor. Analysis of transcriptomes indicated that increased expression of the transcription factor PHYTOCHROME-INTERACTING FACTOR (PIF4) may contribute to hybrid vigor by targeting the auxin biosynthesis gene YUCCA8 and the auxin signaling gene IAA29. A number of auxin responsive genes promoting leaf growth were up-regulated in the F1 hybrids and hybrid mimics, suggesting that increased auxin biosynthesis and signaling contribute to the hybrid phenotype. The hybrid mimic seeds had earlier germination as did the seeds of the F1 hybrids, indicating cosegregation of the genes for rosette size and the germination trait. Early germination may be an indicator of vigorous hybrids.heterosis | transcription factor | biomass | transregulation | germination T wo features common to hybrids in many crops are the increased yield and phenotypic uniformity of the F1 hybrid generation and the reduced yield and phenotypic heterogeneity of the F2 generation (1). These characteristics also apply to the F1 and F2 populations in Arabidopsis hybrids (2). The processes of capture of light and assimilation of CO 2 into photosynthate are the same in the hybrid and parents and as the hybrids have larger leaves than their parents, they produce more photosynthate (3).In a previous paper (2), transcriptome analyses showed that in the hybrids, most genes are expressed at the same levels as in the parents. Compared with the average level of gene expression in the parents, ∼2,000 genes (6% of the genome) have altered expression in the hybrids and are likely to be involved in the generation of the hybrid vigor phenotype. Many of the differentially expressed genes (DEGs) encode proteins in key metabolic pathways such as the plant hormone systems auxin and salicylic acid (SA) and the basal defense response, suggesting that these pathways contribute to the development of hybrid vigor (4). Altered hormone abscisic acid (ABA) and defense response have also been reported in rice hybrids (5). Despite the contrasting phenotypes of the F1 and F2 populations, we were able to develop "pure breeding" F5/F6 lines with phenotypes comparable to the F1 hybrids (hybrid mimics) (2). The hybrid mimic...

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confidence: 87%

Section: Significancementioning

confidence: 99%

mentioning

confidence: 91%

mentioning

confidence: 95%

mentioning

confidence: 96%

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PIF4-controlled auxin pathway contributes to hybrid vigor in Arabidopsis thaliana

Wang

Greaves

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Capturing hybrid vigor for lentil breeding

Tan

Peacock

et al. 2022

Crop Science

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Conventional breeding has produced low levels of yield increase in lentils (Lens culinaris ssp. culinaris Medik.) in recent decades. As hybrids have led to large increases in yield in other crops, we examined the possibility of using hybrids in lentils. In 52 hybrids between Australian commercial cultivars and lines from a global collection of cultivated and wild accessions, we found 15 of the hybrids had seed yield hybrid vigor, with better parent heterosis (BPH) gains ranging from 10.4 to 125%. Flowering time, seed size, cotyledon color, and branch number were important but not critical for the level of hybrid vigor in seed yield. Plant height at 28 days post sowing (dps) could be an indicator of seed yield vigor of hybrids grown in glasshouse conditions. In the absence of male sterile lines in lentils, we used high-yielding hybrid combinations in a program of repeated selfing and selection to produce stable, highyielding lines (Hybrid Mimics) with grain yields similar to the F1 hybrids, avoiding the limitation of the hybrid advantage to the F1 generation. Seed yield increased in successive generations (F3-F5); yields of the F4 plants were close to that of the F1 hybrid. Our results indicate that there is potential for hybrid seed yield vigor in lentil to be accessed through hybrid mimic selection. This is a breeding method not dependent on male sterility that can be initiated with a low number of hand-pollinated hybrids. Hybrid mimic breeding may be applicable to a wide range of crops.

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In Arabidopsis hybrids and Hybrid Mimics, up‐regulation of cell wall biogenesis is associated with the increased plant size

Wang

Greaves

et al. 2019

Plant Direct

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Hybrid breeding is of economic importance in agriculture for increasing yield, yet the basis of heterosis is not well understood. In Arabidopsis, crosses between different accessions produce hybrids with different levels of heterosis relative to parental phenotypes in biomass. In all hybrids, the advantage of the F1 hybrid in both phenotypic uniformity and yield gain is lost in the heterogeneous F2. F5/F6 Hybrid Mimics generated from a cross between C24 and Landsberg erecta (Ler) ecotypes demonstrated that the large plant phenotype of the F1 hybrids can be stabilized. Hybrid Mimic selection was applied to Wassilewskija (Ws)/Ler and Col/Ler hybrids. The two hybrids show different levels of heterosis. The Col/Ler hybrid generated F7 Hybrid Mimics with rosette diameter and fresh weight equivalent to the F1 hybrid at 30 DAS; F7 Ws/Ler Hybrid Mimics outperformed the F1 hybrid in both the rosette size and biomass. Transcriptome analysis revealed up‐regulation of cell wall biosynthesis, and cell wall expansion genes could be a common pathway in increased size in the Arabidopsis hybrids and Hybrid Mimics. Intercross of two independent Hybrid Mimic lines can further increase the biomass gain. Our results encourage the use of Hybrid Mimics for breeding and for investigating the molecular basis of heterosis.

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Hybrid mimics and hybrid vigor in Arabidopsis

Cited by 57 publications

References 44 publications

PIF4-controlled auxin pathway contributes to hybrid vigor in Arabidopsis thaliana

PIF4-controlled auxin pathway contributes to hybrid vigor in Arabidopsis thaliana

Capturing hybrid vigor for lentil breeding

In Arabidopsis hybrids and Hybrid Mimics, up‐regulation of cell wall biogenesis is associated with the increased plant size

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