Hybrid incompatibilities in interspecific crosses between tetraploid wheat and its wild diploid relative Aegilops umbellulata

Okada, Moeko; Yoshida, Kentaro; Takumi, Shigeo

doi:10.1007/s11103-017-0677-6

Cited by 17 publications

(20 citation statements)

References 62 publications

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“…The values for nucleotide diversity (π) were 0.0046 for Pina and 0.0086 for Pinb, which were higher than values that we previously reported (π = 0.0036) based on three single-copy genomic sequences, which included a gene controlling flowering time, Ppd-1, an ascorbate peroxidase gene, APX, and a carotenoid biosynthetic cyclase gene, e-LCY (Okada et al, 2017).…”

Section: Pina-u1contrasting

confidence: 72%

“…Some triploid F1 hybrids between Ldn and Ae. umbellulata show abnormal growth, such as grass-clump dwarfness and severe growth abortion (Okada et al, 2017).…”

Section: Plant Materialsmentioning

confidence: 99%

“…The regions amplified by ExTaq polymerase (Takara Bio, Shiga, Japan) were sequenced using a BigDye terminator cycle sequencing kit (Applied Biosystems, Foster City, CA, USA) and an Applied Biosystems 3730xl DNA Analyzer (Applied Biosystems). Multiple sequence alignment and population genetic analyses for estimating within-species diversity were performed according to our previous study (Okada et al, 2017). The nucleotide sequences of Pina and Pinb in Ae.…”

Section: Sequencing Of Pina and Pinb Genesmentioning

confidence: 99%

“…Hybrid growth abnormalities are frequently observed in interspecific crosses between tetraploid wheat and Ae. umbellulata, while selfed seeds can be obtained in ABU triploid hybrids from some interspecific cross combinations (Okada et al, 2017). Here, we sequenced the Pina-U1 and Pinb-U1 genes in more than 40 accessions of Ae.…”

Section: Introductionmentioning

confidence: 99%

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Effect of the U genome on grain hardness in nascent synthetic hexaploids derived from interspecific hybrids between durum wheat and Aegilops umbellulata

Okada

Ikeda

Yoshida

et al. 2018

Journal of Cereal Science

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Grain hardness is an important trait for improvement of wheat grain quality, and is mainly controlled by two puroindoline genes, Pina and Pinb, on chromosome 5D. The presence of functional alleles for both PINA and PINB proteins results in a soft grain texture. Here, we report nucleotide sequence variation and novel alleles of Pina and Pinb in a diploid wild wheat relative, Aegilops umbellulata Zhuk. Despite the presence of various alleles, mature grains of all Ae. umbellulata accessions examined had a hard texture. The hard-textured grains could be due to nonsynonymous substitutions in the Pina and Pinb alleles or lack of either PINA or PINB protein accumulation. Synthetic hexaploids with the AABBUU genome, derived from interspecific crosses between durum wheat and the Ae. umbellulata accessions, showed hard-textured grain character due to absent transmission of functional PINA and PINB proteins from the U-genome donors. In addition, increased thickness of the cell wall in the endosperm might contribute to the hard-texture in synthetic hexaploids. The U-genome addition to cultivated tetraploid wheat generally generated hard grains, suggesting that the Ae. umbellulata variation in grain-related traits will be useful for enlargement of grain hardness diversity in hard-textured common wheat. Pina-U1d

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Section: Pina-u1contrasting

confidence: 72%

“…Some triploid F1 hybrids between Ldn and Ae. umbellulata show abnormal growth, such as grass-clump dwarfness and severe growth abortion (Okada et al, 2017).…”

Section: Plant Materialsmentioning

confidence: 99%

Section: Sequencing Of Pina and Pinb Genesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effect of the U genome on grain hardness in nascent synthetic hexaploids derived from interspecific hybrids between durum wheat and Aegilops umbellulata

Okada

Ikeda

Yoshida

et al. 2018

Journal of Cereal Science

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“…In about 50% of cross combinations between the tetraploid wheat cultivar Langdon (Ldn) and various Ae. umbellulata accessions, the F 1 hybrids with the ABU genome show one of two types of hybrid growth abnormalities, severe growth abortion (SGA) or grass-clump dwarfism (GCD) [29]. Synthetic wheat hexaploids with the AABBUU genome can be obtained from ABU F 1 hybrids showing normal growth and be used as bridges to introduce useful traits from Ae.…”

Section: Introductionmentioning

confidence: 99%

Phenotypic effects of the U-genome variation in nascent synthetic hexaploids derived from interspecific crosses between durum wheat and its diploid relative Aegilops umbellulata

et al. 2020

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Aegilops umbellulata is a wild diploid wheat species with the UU genome that is an important genetic resource for wheat breeding. To exploit new synthetic allohexaploid lines available as bridges for wheat breeding, a total of 26 synthetic hexaploid lines were generated through crossing between the durum wheat cultivar Langdon and 26 accessions of Ae. umbellulata. In nascent synthetic hexaploids with the AABBUU genome, the presence of the set of seven U-genome chromosomes was confirmed with U-genome chromosome-specific markers developed based on RNA-seq-derived data from Ae. umbellulata. The AABBUU synthetic hexaploids showed large variations in flowering-and morphology-related traits, and these large variations transmitted well from the parental Ae. umbellulata accessions. However, the variation ranges in most traits examined were reduced under the AABBUU hexaploid background compared with under the diploid parents. The AABBUU and AABBDD synthetic hexaploids were clearly discriminated by several morphological traits, and an increase of plant height and in the number of spikes and a decrease of spike length were commonly observed in the AABBUU synthetics. Thus, interspecific differences in several morphological traits between Ae. umbellulata and A. tauschii largely affected the basic plant architecture of the synthetic hexaploids. In conclusion, the AABBUU synthetic hexaploid lines produced in the present study are useful resources for the introgression of desirable genes from Ae. umbellulata to common wheat.

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Channelizing Novel Diversity Through Synthetics for Wheat Improvement

Kaur

Sharma

et al. 2022

New Horizons in Wheat and Barley Research

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Hybrid incompatibilities in interspecific crosses between tetraploid wheat and its wild diploid relative Aegilops umbellulata

Cited by 17 publications

References 62 publications

Effect of the U genome on grain hardness in nascent synthetic hexaploids derived from interspecific hybrids between durum wheat and Aegilops umbellulata

Effect of the U genome on grain hardness in nascent synthetic hexaploids derived from interspecific hybrids between durum wheat and Aegilops umbellulata

Phenotypic effects of the U-genome variation in nascent synthetic hexaploids derived from interspecific crosses between durum wheat and its diploid relative Aegilops umbellulata

Channelizing Novel Diversity Through Synthetics for Wheat Improvement

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