Somatic hybridization between the diploids of S. × michoacanum and S. tuberosum

Szczerbakowa, Anna; Tarwacka, J.; Oskiera, Michał; Jakuczun, H.; Wielgat, Bernard

doi:10.1007/s11738-010-0472-3

Cited by 21 publications

(12 citation statements)

References 24 publications

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“…In susceptible forms predominantly noted in our studies, the expression of a resistance gene might have been silenced. The lack of resistant somatic hybrids or the low frequency of the expected level of resistance to late blight in the somatic hybrid genome were previously noted (Thieme et al 1997; Rasmussen et al 1998; Bidani et al 2007; Szczerbakowa et al 2010; Polzerová et al 2011). Such phenomena could be explained by a ‘dilution effect of non-resistance genes’, which means that expression of a resistant gene from one parental form in somatic hybrids genome is reduced by the presence of non-resistance genes from the other component of the somatic fusion or as a different genome-dosage; chromosomal instability; preferential elimination of some chromosomes; somaclonal variation in an early stage of regeneration, which generated gene mutations in the nuclear and cytoplasmic DNA; translocations and deletions (Thieme et al 1997; Rasmussen et al 1998).…”

Section: Discussionmentioning

confidence: 83%

“…Of this group, only few hybrids between tbr and Solanum bulbocastanum (Helgeson et al 1998), Solanum nigrum (Horsman et al 2001), Solanum tarnii (Thieme et al 2008), Solanum commersonii (Carputo et al 2000), and Solanum cardiophyllum (Thieme et al 2010) were subsequently backcrossed sexually to potato cultivars and exploited in potato breeding programs. Low number of hybrids suitable for an application in the breeding process have been caused by the low frequency of somatic hybrids maintaining resistance of the donor component, their reduced fertility, crossing incapability or poor tuber performance (Orczyk et al 2003; Szczerbakowa et al 2010). …”

Section: Introductionmentioning

confidence: 99%

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Genetic composition of interspecific potato somatic hybrids and autofused 4x plants evaluated by DArT and cytoplasmic DNA markers

et al. 2016

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Key message Using DArT analysis, we demonstrated that all Solanum 3 michoacanum (1) S. tuberosum somatic hybrids contained all parental chromosomes. However, from 13.9 to 29.6 % of the markers from both parents were lost in the hybrids. Abstract Somatic hybrids are an interesting material for research of nucleus-cytoplasm interaction and sources of new nuclear and cytoplasmic combinations. Analyses of genomes of somatic hybrids are essential for studies on genome compatibility between species, its evolution and are important for their efficient exploitation. Diversity array technology (DArT) permits analysis of the composition of nuclear DNA of somatic hybrids. The nuclear genome compositions of 97 Solanum 3 michoacanum (?) S. tuberosum [mch (?) tbr] somatic hybrids from five fusion combinations and 11 autofused 4x mch were analyzed for the first time based on DArT markers. Out of 5358 DArT markers generated in a single assay, greater than 2000 markers were polymorphic between parents, of which more than 1500 have a known chromosomal location on potato genetic or physical map. DArT markers were distributed along the entire length of 12 chromosomes. We noticed elimination of markers of wild and tbr fusion components. The nuclear genome of individual somatic hybrids was diversified. Mch is a source of resistance to Phytophthora infestans. From 97 mch (?) tbr somatic hybrids, two hybrids and all 11 autofused 4x mch were resistant to P. infestans. The analysis of the structure of particular hybrids' chromosomes indicated the presence of markers from both parental genomes as well as missing markers spread along the full length of the chromosome. Markers specific to chloroplast DNA and mitochondrial DNA were used for analysis of changes within the organellar genomes of somatic hybrids. Random and nonrandom segregations of organellar DNA were noted.

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Section: Discussionmentioning

confidence: 83%

Section: Introductionmentioning

confidence: 99%

Genetic composition of interspecific potato somatic hybrids and autofused 4x plants evaluated by DArT and cytoplasmic DNA markers

et al. 2016

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“…The only documented effort to overcome the crossing barrier between S. michoacanum and S. tuberosum was through somatic hybridization, which resulted in obtaining several hybrids, three of them with enhanced late blight resistance (Szczerbakowa et al 2010). Apart from the late blight resistance, clones that are suitable for the potato crisps production (Jakuczun and Wasilewicz-Flis 2004b) and resistant to the green peach aphid were also found within S. michoacanum (Radcliffe et al 1974).…”

Section: Introductionmentioning

confidence: 99%

A resistance gene against potato late blight originating from Solanum × michoacanum maps to potato chromosome VII

et al. 2011

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Solanum × michoacanum (Bitter.) Rydb. is a diploid, 1 EBN (Endosperm Balance Number) nothospecies, a relative of potato originating from the area of Morelia in Michoacán State of Mexico that is believed to be a natural hybrid of S. bulbocastanum × S. pinnatisectum. Both parental species and S. michoacanum have been described as sources of resistance to Phytophthora infestans (Mont.) de Bary. The gene for resistance to potato late blight, Rpi-mch1, originating from S. michoacanum was mapped to the chromosome VII of the potato genome. It confers high level of resistance since the plants possessing it showed only small necrotic lesions or no symptoms of the P. infestans infection and we could ascribe over 80% of variance observed in the late blight resistance test of the mapping population to the effect of the closest marker. Its localization on chromosome VII may correspond to the localization of the Rpi1 gene from S. pinnatisectum. When mapping Rpi-mch1, one of the first genetic maps made of 798 Diversity Array Technology (DArT) markers of a plant species from the Solanum genus and the first map of S. michoacanum, a 1EBN potato species was constructed. Particular chromosomes were identified using 48 sequence-specific PCR markers, originating mostly from the Tomato-EXPEN 2000 linkage map (SGN), but also from other sources. Recently, the first DArT linkage map of 2 EBN species Solanumphureja has been published and it shares 197 DArT markers with map obtained in this study, 88% of which are in the concordant positions.Electronic supplementary materialThe online version of this article (doi:10.1007/s00122-011-1715-4) contains supplementary material, which is available to authorized users.

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“…Numerous experiments had succeeded in the production of potato somatic hybrids by introgression of desirable agronomic and disease resistance traits. In recent years, wild potato species S. pinnatisectum (Greplová et al 2008;Polzerová et al 2011), S. cardiophyllum (Thieme et al 2010), S. 9 michoacanum (Szczerbakowa et al 2010), S. bulbocastanum (Greplová et al 2008) and S. tarnii (Thieme et al 2008) were used to transfer late blight resistance into cultivated potato through somatic hybridization. Protoplast fusion has also been succeeded in other crops like citrus (Grosser and Gmitter 2011), cotton (Sun et al 2011), sweet potato (Yang et al 2009), Brassicaceae (Ovcharenko et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Production and characterization of somatic hybrids between Solanum tuberosum L. and S. pinnatisectum Dun.

Sarkar

Tiwari

Sharma

et al. 2011

Plant Cell Tiss Organ Cult

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Interspecific somatic hybrids between the dihaploid Solanum tuberosum and the wild species S. pinnatisectum Dun. were produced via protoplast fusion. Protoplast isolation, electrofusion, culture of post-fusion products and regeneration of calli/shoots were undertaken following optimized protocols. Regenerants were characterized for hybridity, ploidy and resistance to Phytophthora infestans (Mont.) de Bery, causal fungal pathogen of late blight disease. From a total of 126 regenerated macrocalli, 12 somatic hybrids were confirmed by possessing speciesspecific diagnostic bands of their corresponding parents as revealed by RAPD, SSRs and cytoplasmic-DNA analyses. Tetraploid status of the 12 hybrids was determined using flow cytometry analysis. Intermediate phenotypes for leaf, flower, and tuber characteristics and high male fertility were observed in field-grown hybrid plants. Hybrids were highly resistant to foliage late blight based on field assessment for two seasons. In contrast, moderate level of resistance to foliage blight was observed in hybrids based on the detached leaf assay under laboratory conditions.Overall, somatic hybrids with moderate levels of resistance to foliage blight were identified, and these will be useful for in situ hybridization in potato breeding efforts.

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Somatic hybridization between the diploids of S. × michoacanum and S. tuberosum

Cited by 21 publications

References 24 publications

Genetic composition of interspecific potato somatic hybrids and autofused 4x plants evaluated by DArT and cytoplasmic DNA markers

Genetic composition of interspecific potato somatic hybrids and autofused 4x plants evaluated by DArT and cytoplasmic DNA markers

A resistance gene against potato late blight originating from Solanum × michoacanum maps to potato chromosome VII

Production and characterization of somatic hybrids between Solanum tuberosum L. and S. pinnatisectum Dun.

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