Intergeneric symmetric and asymmetric somatic hybridization in Festuca and Lolium

Summary Intergeneric symmetric and asymmetric somatic hybrids have been obtained by fusion of metabolically inactivated protoplasts from embryogenic suspension cultures of tall fescue (Festuca arundinacea Schreb.) and unirradiated or 10–500 Gy-irradiated protoplasts from non-morphogenic cell suspensions of Italian ryegrass (Lolium multiflorum Lam.). Genotypically and phenotypically different somatic hybrid Festulolium mature flowering plants were regenerated.Species-specific sequences from F. arundinacea and L. multiflorum being dispersed and evenly-represented in the corresponding genomes were isolated and used for the molecular characterization of the nuclear make-up of the intergeneric, somatic Festulolium plants recovered. The irradiation of Italian ryegrass protoplasts with 250 Gy X-rays prior to fusogenic treatment favoured the unidirectional elimination of most or part of the donor chromosomes. Irradiation of L. multiflorum protoplasts with 500 Gy produced highly asymmetric (over 80% donor genome elimination) nuclear hybrids and clones showing a complete loss of donor chromosomes.The RFLP analysis of the organellar composition in symmetric and asymmetric tall fescue (+) Italian ryegrass regenerants confirmed their somatic hybrid character and revealed a bias towards recipient-type organelles when extensive donor nuclear genome elimination had occurred.Approaches aimed at improving persistence of ryegrasses based on asymmetric somatic hybridization with largely sexually-incompatible grass species (F. rubra and Alopecurus pratensis), and at transferring the cytoplasmic male sterility trait by intra- and inter-specific hybridization in L. multiflorum and L. perenne, have been undertaken.Abbreviations cpDNA chloroplast DNA - CMS cytoplasmic male sterility - 2,4-D 2,4-dichlorophenoxy-acetic acid - IOA iodoacetamide - mtDNA mitochondrial DNA - RFLP restriction fragment length polymorphism     

Production and characterization of intergeneric diploid cybrids derived from symmetric fusion between Microcitrus papuana Swingle and sour orange (Citrus aurantium)

Plants were regenerated from intergeneric somatic hybridization between embryogenic protoplasts of Microcitrus papuana Swingle and leaf-derived protoplasts of sour orange (Citrus aurantium L.) via electrofusion. The regenerated plants were morphologically similar to the leaf parent in growth vigor, leaf and branch structure. FCM analysis showed that they were diploids. Simple-sequence-repeat (SSR) and cleaved-amplified-polymorphic-sequence(CAPS) were employed for hybridity characterization. SSR banding patterns of the regenerated plants were identical to the leaf parent, sour orange, indicating that they possessed nuclear component derived from sour orange. DNA amplification with chloroplast and mitochondrial universal primers, followed by restriction endonuclease digestion, revealed polymorphism between the fusion parents. Therefore, this method was used to determine the cytoplasmic compositions of the regenerated plants. Banding patterns for all the polymorphic primer/enzyme combinations of the regenerated plants were similar to those of the embryogenic parent, M. papuana, suggesting that only the cytoplasmic components derived from the embryogenic parent were present in the regenerated plants. FCM, SSR and CAPS demonstrated that intergeneric diploid cybrids have been successfully obtained by symmetric fusion. Related results concerning nuclear and cytoplasmic composition of previous diploid somatic hybrids and potential mechanism for regeneration of such kind of plants are discussed herein. This revised version was published online in July 2006 with corrections to the Cover Date.     

New interspecific rice genome constructions obtained by symmetric cell fusion

Newly released rice varieties are mostly progenies of common commercial cultivars and so most gene sources for rice breeding have closely related genotypes. Protoplast fusion technique is a method that can produce hybrid plants in one‐step within a desired cultivar. To introduce new genetic diversity into rice‐breeding materials, hybrids between Oryza sativa L. (AA) and Oryza punctata Kotschy ex Steud. (BBCC) were generated by symmetric protoplast fusion. The genomic distribution in interspecific somatic hybrids was investigated by multi‐colour genomic in situ hybridization. Differences in chromosome numbers were observed not only between different somatic hybrid plants but also within individual hybrid plants. Chromosomal reduction of the A genome was found in two somatic hybrids. These results suggest that it is possible to reconstruct new interspecific rice genomes. Chromosomal reduction in interspecific somatic hybrids may be used to generate breeding lines with novel chromosomal constitutions.     

棉花原生质体培养与体细胞杂交研究进展

棉花原生质体培养已在多个棉种上取得成功,体细胞杂交也取得了较大的进展,创造出多个种间体细胞杂种,为棉花遗传改良提供了丰富的种质资源.结合本实验室的研究进展,综述了棉花原生质体培养和体细胞杂交的基本技术、研究现状、存在问题和应用前景,为棉花基因工程和细胞工程研究提供有益的借鉴.     

The potential of somatic hybridization in crop breeding

Summary In recent years, the rapid development of somatic cell genetics has made possible the transfer of alien genes over wide taxonomic distances by somatic hybridization. In this review, the potential of somatic hybridization in the breeding of crops within the Brassicaceae, Fabaceae, Poaceae and Solanaceae is discussed. It is evident from these studies that many hybrids, either symmetric or asymmetric, which are fertile have the potential to be used as a bridge between the alien species and the crop. Progeny analysis of some hybrid combinations also reveals intergenomic translocations which may lead to the introgression of the alien genes. Furthermore, fusion techniques enable the resynthesis of allopolyploid crops to increase their genetic variability and to restore ploidy level and heterozygosity after breeding at reduced ploidy level in polyploid crops.     

Production of somatic hybrids between S. tuberosum L. and late blight resistant Mexican wild potato species

Interspecific somatic hybrids between dihaploid breeding clones of potato, S. tuberosum and two accessions of wild Mexican species S. pinnatisectum and the hybrid line S. pinnatisectum × S. bulbocastanum were regenerated following electrofusion of mesophyll protoplasts to combine important agricultural traits of S. tuberosum and a high level of late blight resistance from selected wild accessions. In two fusion combinations 239 calli were regenerated; 162 from 195 calli analysed were identified as hybrids by means of isozyme analysis of peroxidases and, for some hybrid clones, by RAPD analysis. Depending on the fusion combination, 47–89 percent of the somatic hybrids had the expected ploidy level and 7–16 percent were mixoploids. Somatic hybrids were phenotypically intermediate as compared to their parents and some of them were able to be backcrossed sexually with potato. Fertility and crossability depended on combination and ploidy level of the somatic hybrids. In tests with detached leaves the wild partner clones had a high late blight resistance score of 8,6 and 8,9; the susceptible tuberosum-partners of 2,8 and 3,5, respectively. Nearly 25 percent of somatic hybrids had a resistance level of 6 or higher in the first year of assessment. The average resistance value of most somatic hybrids was lower than the average parental level. The reasons for variation in resistance values are discussed in connection with the practical application of fusion hybrids. This revised version was published online in July 2006 with corrections to the Cover Date.     

Transfer of disease resistance within the genus Brassica through asymmetric somatic hybridization

Summary Asymmetric somatic hybrid plants between Brassica napus L. (oilseed rape genome AACC) and a transgenic line of Brassica nigra L. Koch (black mustard genome BB) were tested for their resistance against rapeseed pathogens Phoma lingam (black leg disease) and Plasmodiophora brassicae (club root disease). The transgenic B. nigra line used (hygromycin-resistant, donor) is highly resistant to both fungi, whereas B. napus (recipient) is highly susceptible. The asymmetric somatic hybrids were produced using the donor-recipient fusion method (with X-irradiation of donor protoplasts) reported by Zelcer et al. (1978) for the production of cybrids. Using hygromycin-B for selection, a total of 332 hybrid calli were obtained. Regenerants, resistant or susceptible to both diseases, were selected. Many hybrids expressed resistance to only one pathogen. Dot blot experiments showed that the asymmetric hybrid plants contained varying amounts of the donor genomic DNA. Furthermore, a correlation was detected between the radiation dose and the degree of donor DNA elimination.     

Seed dormancy mechanisms in warm season grass species

Embryogenic protoplasts of Dancy tangerine (Citrus reticulata Blanco) were X-ray irradiated at three doses and electrofused with iodoacetic acid-treated embryogenic protoplasts of Page tangelo (C. reticulata Blanco × C. paradisi Macf.). Shoots could regenerate only from the fusion combination with the lowest irradiation dose, but were recalcitrant to rooting. In vitro grafting was applied to obtain complete plants. Chromosome examination showed that the plants contained mainly diploid and aneuploid cells, together with few tetraploid cells, indicating that they were mixoploids. Random amplified polymorphic DNA analyses with 10-mer arbitrary primers confirmed the plants as true somatic hybrids. This is the first report on regeneration of mixoploid hybrid plants via protoplast asymmetric fusion in Citrus. Negative effects of ionizing irradiation on regeneration of embryoids and plantlets and possible agronomic interest of the mixoploid plants are also discussed. This revised version was published online in July 2006 with corrections to the Cover Date.     

Somatic hybridization as a tool for tomato breeding

Protoplast fusion can be used to produce somatic hybrids of species that cannot be obtained by sexual hybridization. The possibility to introgress genes from Solanum species into the cultivated tomato species Lycopersicon esculentum, and to obtain novel cytoplasm-nucleus combinations (cybrids) was considered as an important strategy to extend the genetic variation available for tomato breeding. Somatic hybrids between L. esculentum and other Lycopersicon species, as well as between L. esculentum and Solanum or Nicotiana species, have been produced. Specific mutants, genotypes with antibiotic resistances, and metabolic inhibition by iodoacetate or iodoacetamide and irradiation were used for the selection of hybrids. In addition, the improvement of protoplast culture techniques and the use of the favourable tissue culture traits derived from species such as L. peruvianum, which have been introduced into tomato by classical breeding, allowed the efficient recovery of somatic hybrids. However, the occurrence of somatic incongruity in fusion combinations of L. esculentum and Solanum and even more in L. esculentum and Nicotiana, did not allow the production of true cybrids and/or fertile hybrids, indicating the importance of both cytoplasm-nucleus and nucleus-nucleus interactions in somatic incongruity. Another problem with fusions between distantly related species is the strongly reduced fertility of the hybrids and the very limited homoeologous recombination between chromosomes of the parental species. Partial genome transfer from donor to recipient through microprotoplast (+) protoplast fusion, and the production of monosomic or disomic chromosome addition lines, light overcome some of these problems. In symmetric somatic hybrids between L. esculentum and S. tuberosum the occurrence of limited somatic and meiotic recombination was demonstrated. Fertile progeny plants could be obtained, though at a low frequency, when embryo rescue was performed on a large scale after backcrossing hexaploid somatic tomato (+) potato hybrids with a tetraploid potato genotype. The potential value of genomic in situ hybridization (GISH) and RFLPs for the analysis of the genome/chromosome composition of the hybrids has been demonstrated for intergeneric somatic hybrids between Lycopersicon and Solanum.Abbreviations cpDNA chloroplast DNA - mtDNA mitochondrial DNA     

Oligonucleotide fingerprinting of resynthesized Brassica napus

Brassica napus plants, artificially synthesized through somatic hybridization of B. oleracea and B. campestris protoplasts, were analyzed by oligonucleotide fingerprinting. While the fingerprint patterns of the different hybrid plants looked very much alike, they did not simply represent a combination of the parental patterns. Instead, the absence of parental bands as well as the presence of new bands suggest that elimination and/or rearrangements occurred during or after the fusion of the two genomes. The fingerprints of individual F1 progeny plants of selfed hybrids did not detect major changes. Thus, once formed, the artificially resynthesized amphidiploid B. napus genome appears to be stable. Taken together, our experiments demonstrate the usefulness of oligonucleotide fingerprinting for the characterization of artificial hybrids in the genus Brassica.     

Characterization of Somatic Brassies napus Hybrids by Polyacrylamide Gel Electrophoresis

Three somatic hybrids obtained by fusion of protoplasts from Brassica oleracea and B. campestris were analyzed by gel electrophoresis and compared with their respective parental species. By comparing multiple forms of esterases and phosphorylases it could be demonstrated that in all cases the hybrid plants contained one or more enzymes from each parent.     

Identification of somatic hybrids of dihaploid Solanum tuberosum lines and S. brevidens by species specific RAPD patterns and assessment of disease resistance of the hybrids

Summary Symmetric somatic hybrids were produced by electrofusion of protoplasts of two dihaploid tuber-bearing potato (Solanum tuberosum L.) lines and Solanum brevidens Phil., a diploid non-tuber-bearing wild potato species. A total of 985 plants was obtained. Verification of nuclear hybridity of putative hybrids was based on additive RAPD patterns, general morphological characteristics and chromosome counts. 53 (90%) calli regenerated into plants which were identified as somatic hybrids. Most of the hybrids were aneuploids at the tetraploid (4×) or hexaploid (6×) level. The 20 hybrids tested expressed a high level of resistance to potato virus Y (PVY ^N ) characteristic of the S. brevidens parent. Resistance to late blight (Phytophthora infestans (Mont.) de Bary) varied between hybrids, but was on average better than that of the fusion parents. Resistance of hybrids to bacterial stem rot (Erwinia carotovora subsp. atroseptica (van Hall) Dye) was not superior to that of commercial potato cultivars.     

Resynthesis of rapeseed (Brassica napus L.): A comparison of sexual versus somatic hybridization

Sexual and somatic Brassica napus hybrids produced from the same parental plants were compared. Sexual crosses between a white-flowered, self-compatible broccoli selection (B. oleracea var. italica, cc genome) as the maternal parent and a flowering pak choi accession (B. chinensis, aa genome) yielded one unique spontaneous hybrid and four hybrids through embryo rescue. Thirty-nine somatic hybrids were recovered from a protoplast fusion experiment. Hybridity was confirmed by morphology, isozyme expression, flow cytometry, and DNA hybridization. Sexual and somatic hybrids exhibited differences in leaf morphology, flower colour, flowering habit, and organellar inheritance. Sexual hybrids were all fertile amphidiploids (2n = 38, aacc) following spontaneous chromosome doubling. All somatic hybrids had high nuclear DNA contents; most were probably hexaploids (aaaacc or aacccc) from the fusion of three portoplasts. Two initially sterile hexaploid (aaaacc) regenerates eventually set selfed seed after the loss of the putative extra aa genome following regrowth from axillary buds. A bias toward inheritance of B. chinensis chloroplasts was observed with somatic hybrids.     

rDNA和端粒重复序列鉴定马铃薯和茄子体细胞杂种染色体丢失和融合

植物体细胞杂交是植物种质资源创制的重要方法。体细胞杂种在原生质体再生的过程中染色体会产生非常多的遗传变异。研究体细胞杂种的染色体行为为马铃薯体细胞杂种的创制和利用提供理论基础。本研究采用rDNA和端粒重复序列作为探针进行原位杂交(fluorescence in situ hybridization),并结合基因组原位杂交(genomic in situ hybridization),对马铃薯和茄子体细胞杂种染色体组成和变异进行了分析。原位杂交结果表明,体细胞杂种中存在马铃薯和茄子融合的染色体和双着丝粒染色体,并发现部分融合染色体是由马铃薯和茄子2号染色体末端对末端融合得到的。重排的双着丝粒染色体的着丝粒一个来源于马铃薯,一个来源于茄子。此外,体细胞杂种中来源于茄子的5S rDNA在体细胞杂种再生及稳定的过程中全部丢失。研究结果表明马铃薯与茄子在进行体细胞杂交的过程中,染色体是不稳定的,容易造成融合后代出现双着丝粒和染色体重排等现象。体细胞杂种的染色体会通过染色体重排、双着丝粒、rDNA均一化等多种形式使其染色体趋于稳定。     

The characterization of autoallotetraploid hybrids between Iris ensata Thunb. and I. laevigata Fisch.

The characteristics of autoallotetraploid hybrids obtained from the cross between Iris ensata cv. Raspberry Rimmed (4X) and amphidiploids of I. laevigata × I. ensata were examined and compared with those of their parents. The color of inner and outer perianths in the autoallotetraploids were bluish purple and similar to those of the amphidiploid parent. However, the autoallotetraploids exhibited low pollen fertility. In addition, the autoallotetraploids were characterized by 17 or 19 anthocyanins and had high resemblance to their parents in the anthocyanin expression. Among these anthocyanins, malvidin 3RGac5G and petunidin 3RGac5G were regarded as major anthocyanins in the autoallotetraploids and their parents, but the differences in the ratios of malvidin 3RGac5G:petunidin 3RGac5G between the autoallotetraploids and their parents were ca. 2:1 for the former and ca. 1:1 for the latter. No viable hybrid seeds were obtained from the reciprocal crosses between I. ensata (2X and 4X) and the autoallotetraploids. Finally, the interspecific cross-breeding of I. ensata using the autoallotetraploids is discussed. This revised version was published online in July 2006 with corrections to the Cover Date.     

Production and characterization of intergeneric somatic hybrids between Moricandia arvensis and Brassica oleracea

Somatic hybrids were produced between Moricandia arvensis (MaMa, 2n= 28) and Brassica oleracea (CC, 2n= 18) through cell fusion and then characterized by analysing their morphology, cytology, DNA constitution, leaf anatomy and seed fertility. Cell fusion was carried out between greenish protoplasts isolated from the mesophyll of M. arvensis and colourless ones from hypocotyls of B. oleracea. Three plants were generated from one shoot via cuttings and acclimatized in vivo. They closely resembled each other in morphology, exhibiting traits intermediate between the parental species. They were confirmed to be amphidiploids by mitotic and meiotic analyses, being 2n= 46 (MaMaCC), with pollen fertility of about 50%, which was enough to develop the subsequent progenies. Anatomical analysis of the for leaf tissue showed that the bundle sheath cells of the somatic hybrids contained some centripetally arranged organelles, like those of M. arvensis. The hybridity was also confirmed by random amplified polymorphic DNA analysis. Both chloroplast DNA and mitochondrial DNA of the somatic hybrids were estimated to be derived from M. arvensis. In leaf anatomy, the somatic hybrid showed the C₃‐C₄ intermediate trait as in M. arvensis. Many progenies resulted from backcrossing with parental species. The somatic hybrids are expected to be used as bridging plant material to introduce the C₃‐C₄ intermediate trait into Brassica crop species.     

Cytological behaviour of the somatic hybrids Passiflora edulis f. flavicarpa + P. cincinnata

Meiosis and pollen viability of interspecific somatic hybrids, i.e. Passiflora edulis f. flavicarpa , the yellow passion fruit +  P. cincinnata , a wild species, were examined and compared with their corresponding diploid fusion parents. Firstly, the cybrid nature of these hybrids was confirmed by leaf-stomatal measurements and RFLP analyses using four mitochondrial genes as probes. The meiotic behaviour revealed relatively high stability, with most of the hybrid cells showing 18 bivalents. Some instability, such as a quadrivalent configuration was also recorded which has been interpreted as an interchange that occurred in the progenitors more than as a result of in vitro culture or chromosome reorganization in the new genome. Even in low frequencies, the occurrence of univalents resulted in mis-division, laggard and micronucleus formation. High values of pollen viability (>70%) were found in the diploid parents as well as in the hybrid plants. The results are discussed in relation to the possibilities of applying somatic hybridization for improving passion fruit varieties.     

Spontaneous and induced loss of chromosomes in slow-growing somatic hybrid calli of Solanum tuberosum and Nicotiana plumbaginifolia

Summary Rate and extent of spontaneous and induced chromosome loss have been determined at the callus level of somatic hybrids of mutants of Solanum tuberosum and Nicotiana plumbaginifolia. AEC (amino ethyl cystein) resistance in potato and Nitrate-Reductase deficiency in N. plumbaginifolia have been used as genetic markers and chromosome morphology as a cytological marker. In this combination, development of hybrid callus was late and slow. Only a limited number of non-regenerable hybrid calli have become available. Chromosome loss could clearly be established in these hybrids from loss of markers and from chromosome cytology. Loss of markers occurred independantly.The best conditions to induce loss of chromosomal material in donor cells by irradiation were found by cytological investigations. A very drastic reduction in chromosome transfer by fusion could be effected by irradiation of plant tissue and subsequent preparation of protoplasts after a few days. Following fusion, hybrid callus was recovered with the potato genome drastically reduced. The amount of loss was deduced from the presence of a few fragments in metaphase cells or from interphase nuclei after in situ hybridization with a repetitive potato DNA probe.     

Plant regeneration in sweet potato (Ipomoea batatas L., Convolvulaceae)

The application of new techniques for improvement of sweet potato crops, particularly including the exploitation of somaclonal variation, gene transfer by genetic transformation and somatic hybridization, requires the control of plant regeneration from tissue cultures. Shoots can easily be regenerated from explants of stems, petioles, leaves and roots, while callus cultures do not produce any shoots. The potential of somatic embryogenesis and plant regeneration via embryogenesis was evaluated for 10 cultivars of sweet potato. Protocols for plant regeneration from cultured protoplasts have also been developed. Since mesophyll was resistant to enzyme digestion, fragments of stems and petioles, callus and cell suspensions were used as source of protoplasts of sweet potato. Series of transfers of protoplast-derived calluses, particularly those which had been obtained from in vitro plants, to media containing a high level of zeatin resulted in successful formation of shoots in only two sweet potato cultivars. In addition, the embryogenic potential was irreversibly lost through protoplast culture, since protoplasts isolated from embryogenic cell suspensions developed into non-embryogenic callus. Consequently, an alternative protocol is being successfully developed to improve plant regeneration from cultured protoplasts of sweet potato, involving first root formation from which shoots can then be regenerated. Preliminary evaluation in field conditions in Gabon revealed that plants regenerated from cultured protoplasts exhibited a great genetic variability in their growth and tuber formation in particular. This revised version was published online in July 2006 with corrections to the Cover Date.     

Combination of resistance to potato late blight in foliage and tubers by intraspecific dihaploid protoplast fusion

Five dihaploid Solanum tuberosum genotypes, encompassing different levels of polygenically inherited resistance to potato late blight disease (Phytophthora infestans (Mont.) de Bary) in foliage and tubers, were used in four intraspecific protoplast fusion combinations. Vigorous growing putative hybrid calli were selected four weeks after electrofusion. Intact plants were regenerated from 6% of the selected calli. Verification of hybridity was accomplished by use of RAPD analysis which revealed that 53% of the regenerated plants were true somatic hybrids. The score of true somatic hybrids in the different fusion combinations ranged within 21% – 100%. The hybrid plants were analysed for resistance to foliage blight in a field trial and assessed for tuber blight resistance by use of a laboratory test. Resistance to late blight in foliage and tubers varied between the hybrids. Very high levels of resistance to both foliage and tuber blight were obtained in some hybrids. However, loss of resistance in some hybrids as compared to the parental plants were also observed. Possible reasons for the phenotypic disappearance of resistance to either foliage or tuber blight are suggested. This revised version was published online in July 2006 with corrections to the Cover Date.