Somatic cell hybridization of ’oxy’ CMS Brassica juncea (AABB) with B. oleracea (CC) for correction of chlorosis and transfer of novel organelle combinations to allotetraploid brassicas

Alloplasmic lines of cultivated Brassica species with B. oxyrrhina cytoplasm are male-sterile and suffer from severe chlorosis. We developed male-sterile lines corrected for chlorosis by fusing protoplasts of CMS B. juncea (AABB) with ’oxy’ cytoplasm and normal B. oleracea (CC). A large number of male-sterile AABBCC somatic hybrids with desirable organelle combinations, i.e. chloroplasts of B. oleracea and mitochondria with recombinant genomes, were recovered. While no recombination was observed in the chloroplast genome, the mitochondrial genome showed extensive recombination that resulted in the appearance of totally novel banding patterns in some of the hybrids. Hybrids with a parental-type mitochondrial genome as well as recombinant patterns close to either of the parental types were also obtained. Using AABBCC somatic hybrids as bridging material, we transferred the desirable organelle combinations to B. juncea (AABB), B. napus (AACC), and B. carinata (BBCC). Many of these lines are now at advanced stages of backcrossing and show stable inheritance of the CMS character and do not suffer from chlorosis. Received: 9 August 1999 / Accepted: 14 September 1999     

Effect of ploidy increase on transgene expression: example from <Emphasis Type="Italic">Citrus</Emphasis> diploid cybrid and allotetraploid somatic hybrid expressing the EGFP gene

Polyploidization is an important speciation mechanism for all eukaryotes, and it has profound impacts on biodiversity dynamics and ecosystem functioning. Green fluorescent protein (GFP) has been used as an effective marker to visually screen somatic hybrids at an early stage in protoplast fusion. We have previously reported that the intensity of GFP fluorescence of regenerated embryoids was also an early indicator of ploidy level. However, little is known concerning the effects of ploidy increase on the GFP expression in citrus somatic hybrids at the plant level. Herein, allotetraploid and diploid cybrid plants with enhanced GFP (EGFP) expression were regenerated from the fusion of embryogenic callus protoplasts from ‘Murcott’ tangor (Citrus reticulata Blanco × Citrus sinensis (L.) Osbeck) and mesophyll protoplasts from transgenic ‘Valencia’ orange (C. sinensis (L.) Osbeck) expressing the EGFP gene, via electrofusion. Subsequent simple sequence repeat (SSR), chloroplast simple sequence repeat and cleaved amplified polymorphic sequence analysis revealed that the two regenerated tetraploid plants were true allotetraploid somatic hybrids possessing nuclear genomic DNA of both parents and cytoplasmic DNA from the callus parent, while the five regenerated diploid plants were cybrids containing nuclear DNA of the leaf parent and with complex segregation of cytoplasmic DNA. Furthermore, EGFP expression was compared in cells and protoplasts from mature leaves of these diploid cybrids and allotetraploid somatic hybrids. Results showed that the intensity of GFP fluorescence per cell or protoplast in diploid was generally brighter than in allotetraploid. Moreover, same hybridization signal was detected on allotetraploid and diploid plants by Southern blot analysis. By real-time RT-PCR and Western blot analysis, GFP expression level of the diploid cybrid was revealed significantly higher than that of the allotetraploid somatic hybrid. These results suggest that ploidy level conversion can affect transgene expression and citrus diploid cybrid and allotetraploid somatic hybrid represents another example of gene regulation coupled to ploidy.     

Fusion and hybridization of marsupial and eutherian cells. Heterokaryon formation

Marsupial x eutherian cell hybrids would be very useful for studies of mammalian genetics and cell biology. A critical step in the formation of such hybrids is the fusion of cells to form heterokaryons. We have examined many different combinations of marsupial and eutherian cells for their ability to fuse, and we have found that all combinations yielded heterokaryons, but with different frequencies, depending on the cell types used. Ranked in order of decreasing ability to fuse with eutherian cells, the marsupial cell types were; established lines, primary diploid fibroblasts and lymphocytes. In all fusion experiments there was a marked preference for the formation of homokaryons compared with heterokaryons. It was possible to control the numbers and types of heterokaryons formed by varying the input ratio of parental cells.     

Fertility and chromosome stability in Brassica napus resynthesised by protoplast fusion

Summary Fertile somatic hybrids between Brassica campestris and B. oleracea have been produced by protoplast fusion. Fusion products were identified by their intermediate protoplast morphology. Heterokaryons were isolated either with micropipettes using a micromanipulator or by flow sorting. About 2% of the obtained calli differentiated to shoots. Of the shoots obtained from manually selected heterokaryons, 100% were true hybrids as confirmed by isozyme analysis while 87% of the flow sorted ones showed a hybrid pattern. Ploidy level of the hybrid plants was determined by chromosome counting and relative DNA-content analysis. The sum of the chromosome number (38) from the two fusion partners were found in 30% of the hybrids; 9% had fewer and 61% had more chromosomes. Pollen viability and seed set varied with ploidy level. Compared to natural B. napus, a pollen viability of 52%–93% and a fertility of 1%–40% was found for the somatic hybrids with normal chromosome number. Restriction enzyme analysis of chloroplast-DNA showed that either B. campestris or B. oleracea chloroplasts were present in the somatic hybrid plants. Of 11 hybrid plants 5 had the campestris and 6 had the oleracea type (11 ratio).     

An improved procedure for protoplast microelectrofusion and culture of Nicotiana tabacum intraspecific somatic hybrids: plant regeneration and initial proofs on organelle segregation

Somatic hybrids were produced between haploid Nicotiana tabacum L. cv. Petite Havana (wild type) and haploid streptomycin resistant (SR1) mutant by an improved version of microelectrofusion of preselected pairs of protoplasts and the culture of fusion products in a nurse culture. Resistance of diploid plants regenerated from 20 somatic hybrid clones was tested at low concentration of streptomycin in the light as well as at high concentrations of streptomycin in the dark. In two independent hybrid lines, plants resistant in the light but sensitive in the dark were found. The existence of this plant type indicates a segregation of chloroplasts and mitocondria in somatic hybrid clones. It is suggested that microelectrofusion of preselected pairs of protoplasts combined with a reliable nurse culture might be a good technique for controlled somatic hybridization, cell reconstitution and partial gene transfer to different plant species. It might also be used to follow and analyse organelle segregation in somatic hybrid clones. The possibility that mitochondria might be resistant to streptomycin in the SR1 mutant is also discussed.     

Production and molecular characterization of potential seedless cybrid plants between pollen sterile Satsuma mandarin and two seedy <Emphasis Type="Italic">Citrus</Emphasis> cultivars

Cytoplasmic male sterility (CMS) is known to be controlled by mitochondrial genome in higher plants including Satsuma mandarin (Citrus unshiu Marc.). Citrus symmetric fusion experiments often produce diploid cybrids possessing nuclear DNA from the mesophyll parent and mitochondrial DNA (mtDNA) from the embryogenic callus parent. Therefore, it is possible to transfer CMS from Satsuma mandarin as callus parent to seedy citrus cultivars as leaf one by somatic cybridization. Herein, symmetric fusion technique was adopted to create cybrids for potential seedlessness by transferring CMS from Citrus unshiu Marc. cv. Guoqing No. 1 (G1) to two traditional Chinese seedy citrus cultivars, ‘Shatian’ pummelo (C. grandis (L) Osbeck) and ‘Bingtang’ orange (C. sinensis (L) Osbeck). Flow cytometry analysis showed that 19 plants recovered from G1 + ‘Bingtang’ orange and 17 of 35 plants regenerated from G1 + ‘Shatian’ pummelo were diploid. The remaining plants from G1 + ‘Shatian’ pummelo were tetraploid. The diploid plants from the two combinations were confirmed as true cybrids by simple sequence repeat (SSR) and cleaved amplified polymorphic sequence (CAPS) analysis, with nuclear DNA from their corresponding leaf parent and mtDNA from their common suspension parent, G1 Satsuma mandarin. The remaining plants from G1 + ‘Shatian’ pummelo were identified as somatic hybrids with mtDNA from G1. The chloroplast simple sequence repeat (cp-SSR) analysis revealed somatic hybrid/cybrid plants from the two combinations in most cases possessed either of their parental chloroplast type, and two plants from G1 +‘Shatian’ pummelo and all embryoids analyzed from G1 + ‘Bingtang’ orange possessed chloroplast DNA (cpDNA) from both parents. These results demonstrated that we succeeded in introducing mtDNA from G1 Satsuma mandarin into the two target seedy citrus cultivars for potential seedlessness through symmetric fusion.     

Analysis of chloroplast and mitochondrial DNA in asymmetric somatic hybrids betweenSolanum tuberosum and irradiatedS. brevidens

Organellar DNA of asymmetric somatic hybrids betweenSolanum tuberosum and irradiatedS. brevidens were analysed by DNA hybridization methods using the spinach chloroplast probepSBD, wheat mitochondrial genenad5 and petunia mitochondrial geneorf25. Eight of the 12 asymmetric hybrid plants hadS. tuberosum chloroplast DNA and the remaining fourS. brevidens chloroplast DNA. A novel mitochondrial hybridization pattern was present in eight out of the 17 hybrids tested. In six hybrids, novel combinations of chloroplasts and mitochondria were found, indicating that both organelle types sorted out independently.     

Novel flowering and fatty acid characters in rapid cycling Brassica napus L. resynthesized by protoplast fusion

Novel rapid cycling Brassica napus lines have been produced by protoplast fusion between rapid cycling B. oleracea and rapid cycling B. rapa. Fusion products were selected based on iodoacetate inactivation and regeneration ability. A total of 36 plants was recovered from 3 regenerating calli. All were confirmed as somatic hybrids by morphological features, flow cytometric estimation of nuclear DNA content, RAPD analysis and/or DNA hybridization. Plants from two of the calli contained chloroplasts from B. rapa, and plants from the third contained B. oleracea chloroplasts. Some plants flowered in vitro, but on average flowering was initiated 22 days after transfer to soil. Although seed set was fairly low after self pollination, more seeds were obtained from pollination of open flowers than from pollination of buds. Seeds of the somatic hybrid B. napus showed novel fatty acid compositions, different from the mean of the two parental lines. Flowering was monitored in plants grown from seeds of the somatic hybrids, rapid cycling B. napus (CrGC 5-1) and the two diploid parental genotypes. Progeny of the somatic hybrids flowered faster and were more vigorous than rapid cycling B. napus (CrGC 5-1). The improved lines contain chloroplasts from B. rapa, unlike rapid cycling B. napus (CrGC 5-1), which has B. oleracea chloroplasts. The somatic hybrid lines produced may be useful for genetic studies or further in vitro manipulations.Abbreviations CrGC Crucifer Genetics Cooperative, University of Wisconsin-Madison - MES 1-morpholino-ethane sulfonate - MS-3,0 Murashige and Skoog medium containing 3% sucrose and no growth regulators - RAPD random amplified polymorphic DNA - RC rapid cycling - RFLP restriction fragment length polymorphism - std standard deviation - TE 10mM Tris, 1 mM EDTA, pH 8     

Chromosomes are eliminated in the symmetric fusion between <Emphasis Type="Italic">Arabidopsis </Emphasis><Emphasis Type="Italic">thaliana</Emphasis> L. and <Emphasis Type="Italic">Bupleurum scorzonerifolium</Emphasis> Willd.

In order to investigate chromosome elimination in symmetric somatic hybridization between Bupleurum scorzonerifolium and Arabidopsis thaliana, protoplasts were isolated from suspension cultures of both A. thaliana and B. scorzonerifolium parents. Biparental protoplasts were mixed at a rate of 1.5:1 and fused with PEG-method. After protoplast fusion, the products were cultured in the P5 liquid medium for microcallus formation. Single cell lines formed from microcalli after subculturing on the MB1 (Xia and Chen, Plant Sci 120:197–203, 1996) solid medium. The putative somatic hybrid cell lines were identified by cytological and molecular analysis. Of the 132 somatic cell lines generated, 16 were identified as somatic hybrids, with the phenotypes resembled B. scorzonerifolium parent. These hybrids showed a complete set of B. scorzonerifolium chromosome and 0–2 small chromosome(s) of A. thaliana. A few of them showed nuclear and cytoplasmic SSR fragments of A. thaliana. These hybrid cell lines could differentiate to green spots, buds/leaves through complementation of regeneration ability. The chromosomes elimination of A. thaliana was discussed. Wang Minqin and Zhao Junsheng contributed equally to the work.     

Chondriome-type characterization of potato: mt α, β, γδɛ and novel plastid-mitochondrial configurations in somatic hybrids

 One hundred and eighty dihaploid clones used for protoplast fusions, and 144 tetraploid German potato cultivars were analysed for their cytoplasms using 11 homologous mt DNA-probes, and were classified as mitochondrial (mt) types α, β, γ, δ, and ɛ according to their RFLP patterns. From the 4x cultivars, 79 had the typical mt-type β of Solanum tuberosum being different from the 46 cvs which had the mt-α type and 19 others with mt-γ. A dendrogram shows their relationships to other Solanum species. The distantly related mt-ɛ was only found in di-haploids, and particularly in clones deriving from Solanum phureja and Solanum andigena. Accessory mt types will be actualized on website (http://www.edv.agrar.tu-muenchen.de/pbpz/ mm/mt/al1.htm). In order to evaluate the genetic potential of novel plastid-mitochondrial configurations we have analyzed four representative populations, which derive from different fusion-combination classes: [α (+) β], [α (+) γ], [α (+) δ] and [α (+) ɛ]. On the mitochondrial expression level, hybrids from an [α (+) ɛ] fusion could be distinguished by in-organello translation from [α (+) β] hybrids, and other di-haploids, by an additional translation product of 15 kDa. In fusion parents with mt-α and -γ an additional atp6 reading frame is detectable in sub-stoichiometric amounts by the use of specific PCR primers. The gene differs from the original 211 bp 3′ from the stop codon. Novel RFLP-patterns in 10% of the somatic hybrids were due to a high-rate replication of this pre-existing parental genome region. A second characteristic for somatic hybrids was the partial addition of parental mt sub-genomes. The major part of them revealed a new organization in their mt genomes at the mt-type characteristic loci rpl5, rps14, cob, rps10, coxI and rpl2, which contain recombination-specific repeats homologous to Petunia spp. and Nicotiana. A schematic model for the formation of novel mitochondrial genomes in potato somatic hybrids is provided. Received: 7 November 1998 / Accepted: 30 November 1998     

Production of somatic hybrids by electrofusion in Solanum

Summary Conditions are described for large scale electrofusion of mesophyll protoplasts of dihaploid S. tuberosum with those of diploid S. brevidens. Overall fusion frequencies of 20%–30% were achieved, and following fusion, large numbers of protoplast-derived calli were obtained. Putative somatic hybrid plants were selected from the regenerated shoots by examining their morphological characteristics. Twenty-one somatic hybrids were confirmed by isoenzyme analysis and six somatic hybrids were further confirmed by Southern hybridization. Tetraploid hybrids were obtained, but cytogenetic studies indicated that more of the regenerated hybrids were hexaploid than had previously been found following chemical fusion of the same partners. Some advantages of electrofusion over chemical fusion are discussed.     

Electrical fusion for optimal formation of protoplast heterokaryons in Nicotiana

The electrical fusion of protoplasts has been studied in order to maximize the formation of heterokaryons for culture. Heterokaryons of Nicotiana tabacum L. mesophyll protoplasts and N. plumbaginifolia Viviani supension-cell protoplasts were identified in fixed and stained as well as living material; a quantitative fusion index was thereby developed. With this index the efficiencies of various electric fields and fusion-chamber designs have been determined. Optimal fusion was obtained with an alternating-current (AC) field of 150 V/cm and direct-current (DC) square-wave pulses of 1000 V/cm. A new, simple-to-use, largescale fusion chamber is described in which batches of up to 5·10⁵ protoplasts (0.5 ml of cells at 10⁶/ml) can be fused in 5–7 min with efficiencies approaching 40%. Half of the fusion products are heterokaryons, thus fusion is random. Of the fusion products, 60% are bi- or trinucleate. Using fusion procedures similar to those described here Bates and C. Hasenkampf (1985, Theor. Appl. Genet., in press) have recovered viable somatic hybrids which have been regenerated.Abbreviations AC alternating current - DC direct current - PEG polyethylene glycol     

Transfer of transformed <Emphasis Type="Italic">Lesquerella fendleri</Emphasis> (Gray) Wats. chloroplasts into <Emphasis Type="Italic">Orychophragmus violaceus</Emphasis> (L.) O.E. Schulz by protoplast fusion

Asymmetric intergeneric hybrid plants were obtained through protoplast fusion between Orychophragmus violaceus (L.) O.E. Schulz and Lesquerella fendleri (Gray) Wats. The latter carried chloroplasts transformed with the fused aadA16gfp gene construct, conferring streptomycin–spectinomycin resistance and UV-induced green fluorescence. The somatic hybrids were selected using the properties of spectinomycin-induced plastid defects in “albino” O. violaceus plants (chloroplast recipient) combined with the γ-irradiation-induced inactivation of nuclei in plastid donor L. fendleri. The morphology and esterase isozyme pattern of the hybrid plant as well as the results of the PCR analysis of internal transcribed spacer of nuclear ribosomal DNA proved that the regenerated hybrids carried O. violaceus nuclei, while PCR amplification of the atpB– rbcL spacer and aadA16gfp gene fragments confirmed the presence of the transformed L. fendleri chloroplasts in these plants. Expression of the fused aadA16gfp gene construct was confirmed by sodium dodecylsulfate–polyacrylamide gel electrophoresis analysis and the resistance of the obtained plants to both streptomycin and spectinomycin.     

Somatic hybrids between Solanum etuberosum and diploid,tuber bearing Solanum clones

Electrofusion was used to obtain somatic hybrids between Solanum etuberosum (2n=2x=24) and two diploid potato lines. These hybridizations were conducted to determine if haploidxwild species hybrids are better fusion partners than conventional S. tuberosumGp. Tuberosum haploids. Restriction fragment length polymerase (RFLP) analyses of the putative somatic hybrids confirmed that each parental genome was present. The somatic hybrids between S. etuberosum and a haploid S. tuberosum clone, US-W730, were stunted and had curled, purple leaves. In contrast, somatic hybrids between S. etuberosum and a haploidxwild species hybrid (US-W 730 haploidx S. berthaultii), were vigorous and generally tuberized under field conditions. These hybrids were designated as E+BT somatic hybrids. Analyses of 23 E+BT somatic hybrids revealed a statistically significant bias towards the retention of S. etuberosum chloroplasts. Stylar incompatibilities were observed when the E+BT somatic hybrids were used as pollen donors in crosses with S. tuberosum cultivars. Reciprocal crosses did not show this incompatibility. The progeny were vigorous and had improved tuber traits when compared to the maternal E+BT parent. RFLP analyses of three sexual progeny lines confirmed the presence of all 12 S. etuberosum chromosomes. In two of these lines, RFLPs that marked each of the 24 chromosome arms of S. etuberosum were present. However, RFLP markers specific for regions on chromosomes 2, 7, and 11 were missing from the third clone. Because other markers for these chromosomes were present in the progeny line, these results indicated the likelihood of pairing and recombination between S. etuberosum and S. tuberosum chromosomes.     

Genotoxic activity of <Emphasis Type="Italic">Eucalyptus globulus</Emphasis> essential oil in <Emphasis Type="Italic">Aspergillus nidulans</Emphasis> diploid cells

Eucalyptus globulus essential oil was evaluated for its genotoxic potential using a somatic segregation assay and a diploid strain of the fungus Aspergillus nidulans, heterozygous for nutritional and conidia color markers. The main compounds of the current essential oil sample were eucalyptol (49.0 %), α-pinene (8.9), β-pinene (1.5), globulol (6.9), α-eudesmol (1.12), spathulenol (1.42), γ-cadinene (1.45), trans-β-elemenone (1.23) and aromandendrene (2.3), totaling 74 % of oil. Oil at 0.12 and 0.25 μL/mL was found to increase the mitotic instability of the original diploid strain and the number of diploid mitotic recombinants of A. nidulans. The genotoxicity of the oil was associated with the induction of mitotic crossing-over or with oil-broken chromosomes.     

Analysis of chloroplast and mitochondrial segregation in three different combinations of somatic hybrids produced within Brassicaceae

Summary Mitochondrial and chloroplast DNA were characterized in three different combinations of somatic hybrids produced between different species within Brassicaceae. The fusions were made between B. campestris and B. oleracea, B. napus and B. nigra and between B. napus and Eruca sativa. The combinations represent interspecific hybridizations, but the phylogenetic distance between the species used in each instance is different. Whereas the B. campestris (+) B. oleracea and the B. napus (+)B. nigra hybrids are both examples of intrageneric hybrids, B. campestris is more closely related to B. oleracea than B. napus is to B. nigra. The fusion of B. napus and E. sativa represents an intergeneric hybridization. Since hybrids were produced with reproducible and uniform fusion and culture methods, a comparison of chloroplast and mitochondrial segregation and mitochondrial DNA (mt-DNA) rearrangements could be made between the combinations. The segregation of both chloroplasts and mitochondria was biased in the B. napus (+)B. nigra and the B. napus (+)E. sativa combination. The nonrandom segregation of chloroplasts and mitochondria could be due to the different ploidy levels of the fusion partners and/or reflect differences in organelle replication rate. Furthermore, segregation of mitochondria was correlated to the differences in phylogenetic distance between the species used in the fusions. However, mitochondrial segregation, in contrast to chloroplast segregation, could in all combinations also have been affected by the cell type used as protoplast source in the fusions. All different chloroplast types could be established within each combination. Hybrids containing chloroplast from one parent together with mitochondria from the other parent were found in two of the combinations, although the majority of the hybrids had mt-DNA that was altered compared to the parental species. The rearranged mt-DNA found in most hybrids was an effect of the heteroplasmic state following protoplast fusion rather than of the tissue culture methods, since no mt-DNA rearrangements were found in B. napus plants regenerated from protoplast culture. The mtDNA restriction patterns of the hybrids with rearranged mt-DNA indicated that specific regions of the mt-DNA were involved in the rearrangements following protoplast fusion.     

Characterisation of somatic hybrids between Solanum tuberosum and its frost-tolerant relative Solanum commersonil

 Somatic hybrids between three dihaploid Solanum tuberosum (2n=2x=24) genotypes and the frost-tolerant, diploid, relative Solanum commersonii (2n=2x=24) were analysed for variation in morphological traits, fertility and frost tolerance. The somatic hybrids were more vigorous than their parents and in many ways resembled a tetraploid S. tuberosum. All of the hybrids flowered profusely, although the male fertility was largely dependent on the S. tuberosum genotype used. In one hybrid combination all plants were both male- and female-fertile, while in the other two combinations the majority of plants were male-sterile but female-fertile. The somatic hybrids showed an increase in direct frost tolerance when compared with the dihaploid S. tuberosum parents, and to a varying extent had gained the capacity to cold acclimate. These somatic hybrids will be used in breeding programmes involving repeated cycles of anther culture and somatic hybridisation. Received: 20 May 1997 / Accepted: 12 June 1997     

Somatic hybrids between the cultivated potato Solanum tuberosum L. and the 1EBN wild species Solanum pinnatisectum Dun.: morphological and molecular characterization

Interspecific somatic hybrids between the 1EBN-wild species Solanum pinnatisectum (S. pnt) and four different diploid breeding lines of Solanum tuberosum (S. tbr) were produced by electrofusion. S. pnt exhibits resistance to Phytophthora infestans and Erwinia blackleg. Somatic hybrids were identified by RFLP analysis using the oligonucleotide (GATA)₄ as a probe. In three of four combinations all regenerates obtained were somatic hybrids. All 86 somatic hybrids between the breeding line H256/1 and S. pnt were analyzed in detail with respect to morphological and molecular characters; 50% of the somatic hybrids showed normal intermediate leaf morphology. Tubers of somatic hybrid plants grown in the greenhouse as well as in the field were evenly shaped and remarkably similar to those of the S. tbr breeding line. Analysis of relative DNA content by flow cytometry revealed that 75% of the somatic hybrids were tetraploid, some were hypotetraploid and others polyploid or mixoploid. Slotblot and RFLP analyses were carried out using repetitive and some single-copy DNA probes. The genome portion of the S. tbr breeding line was determined by slot-blot analysis using the species-specific repetitive probe pSA287. Obviously, most somatic hybrids contain the complete genomes of both fusion partners. In some of the somatic hybrids, a significantly lower intensity of the S. pnt-specific hybridization signal indicated a certain degree of asymmetry.Dedicated to Prof. Melchers on the occasion of his 90th birthday     

Diploid Brassica napus somatic hybrids: characterization of nuclear and organellar DNA

Summary Five somatic hybrids between Brassica campestris and B. oleracea were obtained. Molecular, morphological and cytological information all suggest that the resynthesized B. napus plants were hybrids. All five plants were diploid (2n=38) and had mainly bivalents at meiosis. Seedset was low after selfing but normal after crossing with B. napus. Molecular proof of the hybrid nature of these plants was obtained by hybridization of a rDNA repeat to total DNA. Analysis of chloroplast DNA restriction patterns revealed that all hybrids had chloroplasts identical to the B. oleracea parent. The analysis of mitochondrial DNA indicated that three hybrids had restriction patterns identical to those of B. campestris, and the other two had restriction patterns similar to those of B. oleracea. The 11.3 kb plasmid present in mitochondria of the B. campestris parent was also found in mitochondria of all five hybrids. This suggests that the plasmid from a B. campestris type of mitochondria was transferred into mitochondria of a B. oleracea type.     

Interspecific somatic hybrids <Emphasis Type="Italic">Solanum bulbocastanum</Emphasis> (+) <Emphasis Type="Italic">S. tuberosum</Emphasis> H-8105

Interspecific somatic hybrids between a dihaploid potato clone H-8105 susceptible to Phytophthora infestans (Mont.) de Bary and a resistant diploid tuberizing species Solanum bulbocastanum were generated and analysed. Only ten regenerants displaying the intermediate morphology with dominating characteristics of the wild parent (simple leaves, anthocyanin pigmentation) were produced in 15 weeks after a single PEG-mediated fusion event. The RAPD patterns confirmed the hybridity of all of them. The hybrids rooted poorly and grew slowly in vitro. The cytological analysis revealed a high degree of aneuploidy in the hybrids with morphological and growth anomalies in vitro, while the morphologically normal hybrids were tetraploids. All the S. bulbocastanum (+) H-8105 hybrids were unstable in culture and three of them were consequently lost during three years of propagation in vitro. The possible reasons for instability of somatic hybrids between the distantly related species are discussed.