Waxy Gene-Orthologs in Wheat × Thinopyrum Amphidiploids

Климушина, М. В.; Kroupin, Pavel Yu.; Bazhenov, Mikhail S.; Карлов, Г. И.; Divashuk, Mikhail G.

doi:10.3390/agronomy10070963

Cited by 6 publications

(5 citation statements)

References 80 publications

(103 reference statements)

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“…In addition to disease resistance, other agronomic traits such as male sterility (Sigareva and Earle, 1997 in cabbage) and abiotic stress tolerance (Wei et al, 2015 in tobacco) have also been transferred by wide hybridization. Successful development and characterization of amphidiploids have been reported in several crops such as wheat Song et al, 2019;Klimushina et al, 2020;Zuo et al, 2020;, rice (Wang et al, 2013;), peanut (de Paula et al, 2017Li-Na et al, 2017;Favero et al, 2020;Balleń-Taborda et al, 2022), Brassica (Thomsen, 1990;Song et al, 1993), Vigna (Mjnocha et al, 1991), Dianthus (Nimura et al, 2006), Cucumis (Chen et al, 2002), and Solanum (Khan et al, 2013;. Even though many workers have attempted and succeeded in developing interspecific hybrids, the introgressed lines could be utilized only after eliminating the fertility barriers associated with the hybrids.…”

Section: Introductionmentioning

confidence: 99%

Trends and Perspectives for the Use of Crop Wild Relatives in Crop Breeding

2024

Frontiers Research Topics

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Frontiers is more than just an open access publisher of scholarly articles: it is a pioneering approach to the world of academia, radically improving the way scholarly research is managed. The grand vision of Frontiers is a world where all people have an equal opportunity to seek, share and generate knowledge. Frontiers provides immediate and permanent online open access to all its publications, but this alone is not enough to realize our grand goals. Frontiers journal seriesThe Frontiers journal series is a multi-tier and interdisciplinary set of openaccess, online journals, promising a paradigm shift from the current review, selection and dissemination processes in academic publishing. All Frontiers journals are driven by researchers for researchers; therefore, they constitute a service to the scholarly community. At the same time, the Frontiers journal series operates on a revolutionary invention, the tiered publishing system, initially addressing specific communities of scholars, and gradually climbing up to broader public understanding, thus serving the interests of the lay society, too. Dedication to qualityEach Frontiers article is a landmark of the highest quality, thanks to genuinely collaborative interactions between authors and review editors, who include some of the world's best academicians. Research must be certified by peers before entering a stream of knowledge that may eventually reach the public -and shape society; therefore, Frontiers only applies the most rigorous and unbiased reviews. Frontiers revolutionizes research publishing by freely delivering the most outstanding research, evaluated with no bias from both the academic and social point of view. By applying the most advanced information technologies, Frontiers is catapulting scholarly publishing into a new generation. What are Frontiers Research Topics?Frontiers Research Topics are very popular trademarks of the Frontiers journals series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area.

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Section: Introductionmentioning

confidence: 99%

Trends and Perspectives for the Use of Crop Wild Relatives in Crop Breeding

2024

Frontiers Research Topics

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“…In addition to disease resistance, other agronomic traits such as male sterility (Sigareva and Earle, 1997 in cabbage) and abiotic stress tolerance (Wei et al, 2015 in tobacco) have also been transferred by wide hybridization. Successful development and characterization of amphidiploids have been reported in several crops such as wheat (Zhang et al, 2016;Song et al, 2019;Klimushina et al, 2020;Zuo et al, 2020;Ren et al, 2022), rice (Wang et al, 2013;Kumar et al, 2019), peanut (de Paula et al, 2017;Li-Na et al, 2017;Favero et al, 2020;Balleń-Taborda et al, 2022), Brassica (Thomsen, 1990;Song et al, 1993), Vigna (Mjnocha et al, 1991), Dianthus (Nimura et al, 2006), Cucumis (Chen et al, 2002), and Solanum (Khan et al, 2013;Zhou et al, 2018). Even though many workers have attempted and succeeded in developing interspecific hybrids, the introgressed lines could be utilized only after eliminating the fertility barriers associated with the hybrids.…”

Section: Introductionmentioning

confidence: 99%

Genetic enhancement of okra [Abelmoschus esculentus (L.) Moench] germplasm through wide hybridization

Suma,

Joseph John,

Bhat

et al. 2023

Front. Plant Sci.

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IntroductionThe introgression of genetic material from one species to another through wide hybridization and repeated back-crossing, plays an important role in genetic modification and enriching the cultivated gene-pool with novel genetic variations. Okra (Abelmoschus esculentus [(L.) Moench)] is a popular vegetable crop with high dietary fibre and protein, rich in essential amino acids, lysine and tryptophan. The wild Abelmoschus genepool has many desirable traits like ornamental value, short internodal length, more number of productive branches, extended bearing, perennation tendency, reduced fruit length (more consumer preferred trait), high mucilage content (medicinal value), abiotic stress tolerances such as drought, high temperature and biotic stress resistances such as okra Yellow Vein Mosaic Virus (YVMV) and Enation Leaf Curl Virus (ELCV) diseases. The repeated use of elite breeding lines led to narrowing of the genetic base of the okra crop, one of the major factors attributed to breakdown of resistance/ tolerance to biotic stresses. YVMV and ELCV are the two major diseases, causing significant yield loss in okra. Hence, wide hybridization was attempted to transfer tolerance genes from wild species to the cultivated genepool to widen the genetic base.Material and methodsThe screening of germplasm of wild Abelmoschus species at hotspots led to the identification of tolerant species (Abelmoschus pungens var. mizoramensis, A. enbeepeegeearensis, A. caillei, A. tetraphyllus and A. angulosus var. grandiflorus), which were further used in a wide-hybridization programme to generate interspecific hybrids with the cultivated okra. Presence of pre- and post-zygotic barriers to interspecific geneflow, differences in ploidy levels and genotype specific variations in chromosome numbers led to varying degrees of sterility in F1 plants of interspecific crosses. This was overcome by doubling the chromosome number of interspecific hybrids by applying Colchicine at the seedling stage. The 113 cross derivatives generated comprising amphidiploids in the F1 generation (30), F3 (14), one each in F2 and F4 generations, back cross generation in BC1F2 (03), BC1F3 (25), and BC2F3 (02), crosses between amphidiploids (27), multi-cross combinations (07) and inter-specific cross (between A. sagittifolius × A. moschatus subsp. moschatus) selfed derivatives at F8 generation (03) were characterized in the present study. Besides they were advanced through selfing and backcrossing.Results and DiscussionThe amphidiploids were found to possess many desirable genes with a considerable magnitude of linkage drag. Majority of the wide cross derivatives had an intermediate fruit morphology and dominance of wild characters viz., hispid fruits, stem, leaves, tough fruit fibre, vigorous perennial growth habit and prolonged flowering and fruiting. The fruit morphology of three BC progenies exhibited a high morphological resemblance to the cultivated okra, confirming successful transfer of useful genes to the cultivated okra genepool. The detailed morphological characteristics of the various combinations of Abelmoschus amphidiploids and the genetic enhancement of the genepool achieved in this process is reported here.

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“…Although contemporary science has reached high levels of use of the latter two technologies, wide hybridization remains a main conventional tool for achieving high genetic variabi lity. There is a large amount of research on amphidiploids de veloped through wide hybridization among the cereal crops (Zhang et al, 2010;Ming et al, 2011;Babaiants et al, 2012;Stoyanov, 2013Stoyanov, , 2014Dai et al, 2015;Nemeth et al, 2015;Song et al, 2019;Klimushina et al, 2020;Zuo et al, 2020;Kiani et al, 2021). One of the most promising species for enrichment of the genome of common and durum wheat, however, is Dasypyrum villosum.…”

Section: Introductionmentioning

confidence: 99%

Androgenic response of Triticum durum-Dasypyrum villosum amphidiploids and their parental forms

Stoyanov

Belchev

2022

Vestn. VOGiS

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Wide hybridization in cereal crops is one of the most efficient tools for the enrichment of genetic variability and addressing a number of breeding problems related to resistance and tolerance to biotic and abiotic stresses. Therefore, a large number of amphidiploids between species possessing different morphological, genetic and physiological properties have been developed. One of the most valuable species with regard to the possibilities for introducing valuable traits and properties into wheat species is the wild Dasypyrum villosum. With the aim to study the androgenic response of the Triticum durum-D. villosum amphidiploids, two accessions and their parental forms – the durum wheat cultivars Gergana and Argonavt and a landrace of the D. villosum – were studied. The following parameters were determined: callus induction, plant regeneration, yield of albino and green regenerants. It was found that the callus induction of the two studied amphidiploids differed significantly from that of the parental forms (2.1–7.2 %), being significantly higher, 30.7 and 16.5 %, respectively. Regardless of the difference in callus induction, the amphidiploids did not significantly differ from the parental forms in their regeneration ability. The yield of albino plants exceeded the yield of green regenerants and followed the tendency observed in callus induction. Green plants were found only in the amphidiploid Gergana-D. villosum and in the parental form durum wheat Gergana. Plants were regenerated from the species D. villosum, although they were only albinos, showing its good responsiveness to anther culture. The established characteristics of the amphidiploids and their parental forms make their practical use highly valuable for the improvement of different types of cereal crops.

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Waxy Gene-Orthologs in Wheat × Thinopyrum Amphidiploids

Cited by 6 publications

References 80 publications

Trends and Perspectives for the Use of Crop Wild Relatives in Crop Breeding

Trends and Perspectives for the Use of Crop Wild Relatives in Crop Breeding

Genetic enhancement of okra [Abelmoschus esculentus (L.) Moench] germplasm through wide hybridization

Androgenic response of Triticum durum-Dasypyrum villosum amphidiploids and their parental forms

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