Cytogenetic and agronomic characterization of intergeneric hybrids between Saccharum spp. hybrid and Erianthus arundinaceus

Pachakkil, Babil; Terajima, Yoshifumi; Ohmido, Nobuko; Ebina, Masumi; Irei, S.; Hayashi, Hideharu; Takagi, H.

doi:10.1038/s41598-018-38316-6

Cited by 34 publications

(26 citation statements)

References 45 publications

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“…In the grass family (Poaceae) hybridisation and introgression are well studied mainly for economically important plants, such as wheats 17 , 18 , maize 19 , 20 , rice 21 , 22 , barley 23 , 24 , oats 25 , 26 , rye 27 , 28 , sugarcanes 29 , 30 , and sorghums 31 , 32 . Nowadays new molecular markers and technologies that first came to the field of agriculture are becoming widely used in studies of wild populations with little or no previous genomic information.…”

Section: Introductionmentioning

confidence: 99%

Morphological and genome-wide evidence for natural hybridisation within the genus Stipa (Poaceae)

Baiakhmetov

Nowak

Gudkova

et al. 2020

Sci Rep

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Hybridisation in the wild between closely related species is a common mechanism of speciation in the plant kingdom and, in particular, in the grass family. Here we explore the potential for natural hybridisation in Stipa (one of the largest genera in poaceae) between genetically distant species at their distribution edges in Mountains of Central Asia using integrative taxonomy. Our research highlights the applicability of classical morphological and genome reduction approaches in studies on wild plant species. The obtained results revealed a new nothospecies, Stipa × lazkovii, which exhibits intermediate characters to S. krylovii and S. bungeana. A high-density DArTseq assay disclosed that S. × lazkovii is an F1 hybrid, and established that the plastid and mitochondrial DNA was inherited from S. bungeana. In addition, molecular markers detected a hybridisation event between morphologically and genetically distant species S. bungeana and probably S. glareosa. Moreover, our findings demonstrated an uncertainty on the taxonomic status of S. bungeana that currently belongs to the section Leiostipa, but it is genetically closer to S. breviflora from the section Barbatae. Finally, we noticed a discrepancy between the current molecular data with the previous findings on S. capillata and S. sareptana. Hybridisation in the wild between closely related species is a common mechanism of speciation in the plant kingdom 1-7. Due to the prevalence of polyploidy found in angiosperms it has been estimated that around 11% of flowering plants may have arisen through hybridisation events 4. In addition, speciation via hybridisation can lead to an equal ploidy number within parental and newly formed species 3. In general, hybridisation is often accompanied by introgression and causes gene transfer between species via repeated backcrossing 4,8-11. On the one hand it may have contributed to species diversity and speciation 5,12,13 , on the other, deleterious consequences of hybridisation such as decreased fitness, genetic assimilation and gene swamping may drive populations toward the brink of extinction 14-16. In the grass family (Poaceae) hybridisation and introgression are well studied mainly for economically impor

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Section: Introductionmentioning

confidence: 99%

Morphological and genome-wide evidence for natural hybridisation within the genus Stipa (Poaceae)

Baiakhmetov

Nowak

Gudkova

et al. 2020

Sci Rep

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“…Due to F 1 male sterility, F 1 could only be used as the female parent, the offspring material could be obtained through backcrossing, and the chromosome transmission was 2n + n or more than 2n + n, which also made the BC 1 material richer in a variety of resistances and vitalities. E. arundinaceus chromosomes were also lost (28~29) in five hybrids [30]. When these hybrids were crossed with commercial varieties as female parents, the pattern of "2n + n" or more than "2n + n" was seen in BC 1 hybrids, and 23~36 E. arundinaceus chromosomes were present in these plants.…”

Section: Discussionmentioning

confidence: 98%

“…When these hybrids were crossed with commercial varieties as female parents, the pattern of "2n + n" or more than "2n + n" was seen in BC 1 hybrids, and 23~36 E. arundinaceus chromosomes were present in these plants. The fertility of BC 1 material was restored, and the restoration of the fertility of the offspring helped obtain "noble" hybrids with the advantages of high sugar content, high disease resistance, and strong tillers [30]. In general, low fertility and unbalanced hybridization in offspring were most likely related to abnormal meiosis processes.…”

Section: Discussionmentioning

confidence: 99%

Chromosome behavior during meiosis in pollen mother cells from Saccharum officinarum × Erianthus arundinaceus F1 hybrids

Huang

Chai

et al. 2021

BMC Plant Biol

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Background In recent years, sugarcane has attracted increasing attention as an energy crop. Wild resources are widely used to improve the narrow genetic base of sugarcane. However, the infertility of F1 hybrids between Saccharum officinarum (S. officinarum) and Erianthus arundinaceus (E. arundinaceus) has hindered sugarcane breeding efforts. To discover the cause of this infertility, we studied the hybridization process from a cytological perspective. Results We examined the meiotic process of pollen mother cells (PMCs) in three F1 hybrids between S. officinarum and E. arundinaceus. Cytological analysis showed that the male parents, Hainan 92–77 and Hainan 92–105, had normal meiosis. However, the meiosis process in F1 hybrids showed various abnormal phenomena, including lagging chromosomes, micronuclei, uneven segregation, chromosome bridges, and inability to form cell plates. Genomic in situ hybridization (GISH) showed unequal chromatin distribution during cell division. Interestingly, 96.70% of lagging chromosomes were from E. arundinaceus. Furthermore, fluorescence in situ hybridization (FISH) was performed using 45S rDNA and 5S rDNA as probes. Either 45S rDNA or 5S rDNA sites were lost during abnormal meiosis, and results of unequal chromosomal separation were also clearly observed in tetrads. Conclusions Using cytogenetic analysis, a large number of meiotic abnormalities were observed in F1. GISH further confirmed that 96.70% of the lagging chromosomes were from E. arundinaceus. Chromosome loss was found by further investigation of repeat sequences. Our findings provide insight into sugarcane chromosome inheritance to aid innovation and utilization in sugarcane germplasm resources.

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“…Hence, sugarcane breeders had been implemented wide hybridization between sugarcane and E. arundinaceus, despite the large genetic distance between sugarcane and E. arundinaceus. More delightfully, subsequent introgression generations had also been obtained in sugarcane breeding programs (Fukuhara et al 2013;Gao et al 2015;Govindaraj et al 2012;Pachakkil et al 2019;Wu et al 2014). Selecting introgression progeny with the best performance as good candidates are of vital importance for introgression breeding.…”

Section: Discussionmentioning

confidence: 99%

“…Traditionally, cytological methods and molecular markers are widely used to speci cally detect the alien chromosomes and chromosomal segments in putative progeny. Genomic in situ hybridization (GISH) is a powerful cytological tool for identifying the introgression status of alien chromosomes in sugarcane background (Pachakkil et al 2019;Piperidis et al 2010). GISH results of progeny between sugarcane and E. arundinaceus indicated that chromosome transmission was n + n in F 1 , BC 2 , and BC 3 generations, but was 2n+ n in BC 1 generation (Piperidis et al 2010;Wu et al 2014).…”

Section: Introductionmentioning

confidence: 99%

Efficient anchoring of Erianthus arundinaceus chromatin introgressed into sugarcane by specific molecular markers

Huang¹,

Wu²,

Li³

et al. 2020

Preprint

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Background: Erianthus arundinaceus is a valuable gene reservoir for sugarcane improvement. However, insufficient molecular markers for high-accuracy identification and tracking of the introgression status of E. arundinaceus chromatin impede sugarcane breeding. Fortunately, suppression subtractive hybridization (SSH) technology provides an excellent opportunity for development of high-throughput E. arundinaceus-specific molecular markers at a reasonable cost. Results: In this study, we constructed a SSH library of E. arundinaceus. In total, 288 clones E. arundinaceus-specific repetitive sequences were screened out and their distribution patterns on chromosomes were characterized by fluorescence in situ hybridization (FISH). A subtelomeric repetitive sequence Ea086 and a diffusive repetitive sequence Ea009, plus 45S rDNA-bearing E. arundinaceus chromosome repetitive sequence EaITS were developed as E. arundinaceus-specific molecular markers, namely Ea086-128, Ea009-257, and EaITS-278, covering all the E. arundinaceus chromosomes for high-accuracy identification of putative progeny. Both Ea086-128 and Ea009-257 were successfully applied to identify the authenticity of F1, BC1, BC2, BC3, and BC4 progeny between sugarcane and E. arundinaceus. In addition, EaITS-278 was a 45S rDNA-bearing E. arundinaceus chromosome-specific molecular marker for rapid tracking the inherited status of this chromosome in sugarcane background. Three BC3 progeny had apparently lost the 45S rDNA-bearing E. arundinaceus chromosome. Conclusions: We reported herein a highly effective and reliable SSH-based technology for discovery of high-throughput E. arundinaceus-specific sequences bearing high potential as molecular markers. Given its reliability and savings in time and efforts, the method is also suitable for development of species-specific molecular markers for other important wild relatives to accelerate introgression of wild relatives into sugarcane.

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Cytogenetic and agronomic characterization of intergeneric hybrids between Saccharum spp. hybrid and Erianthus arundinaceus

Cited by 34 publications

References 45 publications

Morphological and genome-wide evidence for natural hybridisation within the genus Stipa (Poaceae)

Morphological and genome-wide evidence for natural hybridisation within the genus Stipa (Poaceae)

Chromosome behavior during meiosis in pollen mother cells from Saccharum officinarum × Erianthus arundinaceus F1 hybrids

Efficient anchoring of Erianthus arundinaceus chromatin introgressed into sugarcane by specific molecular markers

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Cytogenetic and agronomic characterization of intergeneric hybrids between Saccharum spp. hybrid and Erianthus arundinaceus

Cited by 34 publications

References 45 publications

Morphological and genome-wide evidence for natural hybridisation within the genus Stipa (Poaceae)

Morphological and genome-wide evidence for natural hybridisation within the genus Stipa (Poaceae)

Chromosome behavior during meiosis in pollen mother cells from Saccharum officinarum × Erianthus arundinaceus F1 hybrids

Efficient anchoring of Erianthus&nbsp;arundinaceus chromatin introgressed into sugarcane by specific molecular markers

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Efficient anchoring of Erianthus arundinaceus chromatin introgressed into sugarcane by specific molecular markers