Alteration of β-tubulin in Nicotiana plumbaginifolia confers resistance to amiprophos-methyl

 A Nicotiana plumbaginifolia plant (apm5^r) resistant to amiprophos-methyl (APM), a phosphoro-amide herbicide, was isolated from protoplasts prepared from leaves of haploid plants. Genetic analysis revealed that the resistance is coded for by a dominant nuclear mutation and is associated with the increased stability of cortical microtubules. Two-dimensional polyacrylamide-gel electrophoresis, combined with immunoblotting using anti-tubulin monoclonal antibodies, showed that part of the β-tubulin in the resistant plant possessed lower isoelectric points than the β-tubulin of susceptible wild-type plants. These results provide evidence that the resistance to APM is associated with a mutation in a β-tubulin gene. The APM-resistant line showed cross-resistance to trifluralin, a dinitroaniline herbicide, suggesting a common mechanism of resistance between these two classes of herbicides. Received: 26 January 1997 / Accepted: 17 February 1998     

Metabolic complementation for a single gene function associated with partial and total loss of donor DNA in interspecific somatic hybrids

Summary We report here on the obtainment of interspecific somatic, asymmetric, and highly asymmetric nuclear hybrids via protoplast fusion. Asymmetric nuclear hybrids were obtained after fusion of mesophyll protoplasts from a nitrate reductase-deficient cofactor mutant of N. plumbaginifolia with irradiated (100 krad) kanamycin resistant leaf protoplasts of a haploid N. tabacum. Selection for nitrate reductase (NR) and/or kanamycin (Km) resistance resulted in the production of three groups of plants (NR⁺, NR⁺, Km^R, and NR^-Km^R). Cytological analysis of some hybrid regenerants showed the presence of numerous tobacco chromosomes and chromosome fragments, besides a polyploid N. plumbaginifolia genome (tetra or hexaploid). All the regenerants tested were male sterile but some of them could be backcrossed to the recipient partner. In a second experiment, somatic and highly asymmetric nuclear hybrids were obtained after fusion of mesophyll protoplasts from the universal hybridizer of N. plumbaginifolia with suspension protoplasts of a tumor line of N. tabacum. Selection resulted in two types of colonies: nonregenerating hybrid calli turned out to be true somatic hybrids, while cytological analysis of regenerants obtained on morphogenic calli did not show any presence of donor-specific chromosomes. Forty percent of the hybrid regenerants were completely fertile, while the others could only be backcrossed to the recipient N. plumbaginifolia. Since the gene we selected for is not yet cloned, we were not able to demonstrate the transfer of genetic material at the molecular level. However, since no reversion frequency for the nitrate reductase mutant is known, and due to a detailed cytological knowledge of both fusion partners, we feel confident in speculating that intergenomic recombination between N. plumbaginifolia and N. tabacum has occurred.     

Chloroplast segregation in somatic hybrids of Nicotiana plumbaginifolia and N. sylvestris having different ratios of parental nuclear genomes

Summary Fusion of mesophyll protoplasts of haploid Nicotiana plumbaginifolia (P) and N. sylvestris (S) resulted in the production of somatic hybrid plants of various ploidy levels. Analysis of the restriction fragment patterns of chloroplast DNA from 118 plants belonging to genome constitutions PS, PPS, PSS, and PPSS revealed that two had a pattern corresponding to a mixture of parental DNA while all the others had the pattern of either N. plumbaginifolia or N. sylvestris. In the latter case, the ratio of the two parental types fits 1∶1 in all the four genome constitutions studied. Since the protoplasts used in the fusion experiment were physiologically similar and the hybrid cells were not deliberately selected, these results suggest that chloroplast segregation in the somatic hybrids is independent of the chloroplast input of the fusion partners and the nuclear background of the fusion products.     

Amplification of repetitive DNA from Nicotiana plumbaginifolia in asymmetric somatic hybrids between Nicotiana sylvestris and Nicotiana plumbaginifolia

Summary Asymmetric somatic hybrids were obtained between a chlorophyll-deficient mutant of Nicotiana sylvestris (V42) and a nitrate-reductase (NR)-deficient line of N. plumbaginifolia (cnx20 or Nia26), using each of the parents alternately as the irradiated donor. Irradiation doses applied ranged from 10 to 1,000 Gy of gamma-rays. Hybrid selection was based on complementation of NR deficiency with wild-type NR genes. To aid in the analysis of somatic hybrids, species-specific repetitive DNA sequences from N. plumbaginifolia (NPR9 and NPR18) were cloned. NPR18 is a dispersed repetitive sequence occupying about 0.4% of the N. plumbaginifolia genome. In turn, NPR9, which is part of a highly repetitive DNA sequence, occupies approximately 3% of the genome. The species-specific plant DNA repeats, together with cytological analysis data, were used to assess the relative amount of the N. plumbaginifolia genome in the somatic hybrids. In fusion experiments using irradiated N. plumbaginifolia, an increase in irradiation dose prior to fusion led to a decrease in N. plumbaginifolia nuclear DNA content per hybrid genome. For some hybrid lines, an increase in the quantity of repetitive sequences was detected. Thus, hybrid lines 1NV/21, 100NV/7, 100NV/ 9, and 100NV/10 (where N. plumbaginifolia was the irradiated donor) were characterized by amplification of NPR9. In the reverse combination (where N. sylvestris was the irradiated donor), an increase in the copy number of NPR18 was determined for hybrid clones 1VC/2, 1VC/3, 100VC/2 and oct100/7. Possible reasons for the amplification of the repeated sequences are discussed.     

I. THE EXPRESSION OF INSTABILITY IN N. TABACUM × N. PLUMBAGINIFOLIA

Moav , Rom (Hebrew U., Jerusalem), and D. R. Cameron . Genetic instability in Nicotiana hybrids. I. The expression of instability in N. tabacum × N. plumbaginifolia. Amer. Jour. Bot. 47(2): 87—93. 1960.—N. tabacum (n = 24) and N. plumbaginifolia (n=10) are distantly related species both from morphological and cytological points of view. Hybrids of these species with various genome dosages have exhibited somatic variegation when plumbaginifolia dominant characters were superimposed on an appropriate tabacum genetic background. Five loci were studied in this respect: Wh and Tg—for flower coloration; Ws—for chlorophyll production; Kl—for pollen abortion and Bs—for black shank resistance. All 5 were found to be unstable. Backcross progenies of the sesquidiploid hybrid (tbc-tbc-pbg) to tabacum showed a marked increase in intensity of variegation. This has been attributed to the breaking up of the plumbaginifolia genome into individual chromosomes. The evidence indicates that variegation was due to somatic chromosomal aberrations which probably characterized all the plumbaginifolia chromosomes. An hypothesis regarding the heterogeneity of F₁ hybrids of distantly related homozygous species is outlined and the occurrence of instability due to hybridization in other Nicotiana hybrids is discussed.     

Production and characterization of somatic hybrid plants between leek (Allium ampeloprasum L.) and onion (Allium cepa L.)

 Results are reported on the production and characterization of somatic hybrids between Allium ampeloprasum and A. cepa. Both symmetric and asymmetric protoplast fusions were carried out using a polyethylene-based mass fusion protocol. Asymmetric fusions were performed using gamma ray-treated donor protoplasts of A. cepa and iodoacetamide-treated A. ampeloprasum protoplasts. However, the use of gamma irradiation to eliminate or inactivate the donor DNA of A. cepa proved to be detrimental to the development of fusion calli, and thus it was not possible to obtain hybrids from asymmetric fusions. The symmetric fusions yielded a high number of hybrid calli and regenerated plants. The analysis of the nuclear DNA composition using interspecific variation of rDNA revealed that most of the regenerated plants were hybrids. Flow cytometric analysis of nuclear DNA showed that these hybrid plants contained a lower DNA content than the sum of the DNA amounts of the parental species, suggesting that they were aneuploid. A shortage of chromosomes in the hybrids was confirmed by genomic in situ hybridization. Chromosome counts in metaphase cells of six hybrids revealed that these plants lacked 2–7 leek chromosomes. One hybrid showed also the loss of onion chromosomes. The hybrids had an intermediate phenotype in leaf morphology. The application of these somatic hybrids in breeding is discussed. Received: 7 April 1997 / Accepted: 10 September 1997     

Interspecific protoplast fusion to rescue a cytoplasmic lincomycin resistance mutation into fertile Nicotiana plumbaginifolia plants

Summary A lincomycin-resistant cell line, LR105, was isolated in a mutagenized (0.1 mM N-ethyl-N-nitrosourea) callus culture initiated from a haploid Nicotiana sylvestris plant. The regenerated plants had an abnormal morphology and did not set viable seeds.Transfer of lincomycin resistance was attempted from the original N. sylvestris nuclear background into Nicotiana plumbaginifolia by protoplast fusion, since it was expected that resistance would be cytoplasmically coded. LR105 protoplasts were irradiated with a lethal dose (120 J kg^-1; ⁶⁰ Co source), fused with sensitive N. plumbaginifolia protoplasts and the colonies grown from the fused population were screened for lincomycin resistance. Expression of resistance was expected only if the cytoplasm of the irradiated cells had mixed with nonirradiated cytoplasm, and was reactivated as a result of cell fusion (Menczel et al. 1982).Plants were regenerated in 44 resistant clones. Plants in 41 clones had a N. plumbaginifolia nuclear genome. In three clones somatic hybrids were obtained. The resistant N. plumbaginifolia cybrid plants were fertile, unlike the original LR105 plants. Lincomycin resistance was inherited maternally in the eight clones in which crosses were made. In these clones the introduction of N. sylvestris chloroplasts into a N. plumbaginifolia nuclear background was confirmed by the SmaI restriction endonuclease pattern of the chloroplast DNA. The involvement of chloroplast DNA in determining lincomycin resistance is therefore implied.     

Chloroplast transfer in Nicotiana based on metabolic complementation between irradiated and iodoacetate treated protoplasts

Protoplasts of a light sensitive plastome mutant of Nicotiana tabacum (2 n=48) were irradiated and fused with iodoacetate-treated Nicotiana plumbaginifolia (2 n=20) protoplasts. Treated parental protoplasts were unable to divide. Metabolic complementation, however, helped the recovery of interspecific fusion products which survived and formed calli. Altogether 40 clones were investigated. N. plumbaginifolia plants were obtained in 15 clones (38%), somatic hybrids in 23 clones, and both types of regenerates were found in 2 clones. Irradiation therefore significantly increased the frequency of segregant formation with the non-irradiated N. plumbaginifolia nuclei (the frequency was 1.4% in the absence of irradiation). Regenerated plants in most cases (31 out of 34) contained chloroplasts from the irradiated parent. In 6 clones plants were obtained with both types of chloroplast. Thus, irradiated N. tabacum chloroplasts had an improved chance of dominating the heterokaryonderived cells, many of which contained N. plumbaginifolia nucleus. The system described should be generally applicable for the transfer of chloroplasts without the use of selectable genetic markers.     

Culture of plant somatic hybrids following electrical fusion

Summary Electrically-induced protoplast fusion has been used to produce somatic hybrids between Nicotiana plumbaginifolia and Nicotiana tabacum. Following fusion of suspension culture protoplasts (N. plumbaginifolia) with mesophyll protoplasts (N. tabacum) heterokaryons were identified visually and their development was followed in culture. Because electrical fusion is a microtechnique, procedures were developed for culturing the heterokaryons in small numbers and at low density. The fusion and culture procedures described are rapid, uncomplicated and repeatable. Good cell viabilities indicate that the fusion procedure is not cytotoxic. Fused material was cultured 1–2 days at high density in modified K3 medium (Nagy and Maliga 1976). The heterokaryons were isolated manually and grown, at low density in conditioned media. Calli have been regenerated. Esterase isozyme patterns confirm the hybrid character of calli and clonally-derived plantlets recovered from these fusions.     

Somatic hybrid plants of Nicotiana glauca and Nicotiana tabacum obtained by protoplast fusion

Somatic hybrid plants were produced by fusion of protoplasts from cell cultures of the Nicotiana tabacum L. sulfur mutant Su/Su and from leaf mesophyll of Nicotiana glauca Graham. After fusion the N. glauca protoplasts failed to survive under the selected culture condition. From the hybrid cells light green shoots were produced. The hybrid plants exhibited intermediate characters between parental species with respect to leaf morphology, trichome density, floral structure and flower color. The chromosome number of 25 hybrid plants was 2n = 72 and both N. glauca and N. tabacum chromosomes were identified in the hybrids. Results of isoenzyme analysis showed bands of both parents and a specific (hybrid) band for aspartate amino-transferase. Small subunit fraction-1-protein of somatic hybrids also consisted of the sum of N. glauca and N. tabacum bands. Leaf spot formation associated with the Su locus of N. tabacum was observed in somatic hybrids.     

Somatic hybridization between potato and Nicotiana plumbaginifolia

Summary Electrofusion was carried out between mesophyll protoplasts from the transformed diploid S. tuberosum clone 413 (2n=2x=24) which contains various genetic markers (hormone autotrophy, opine synthesis, kanamycin resistance, -glucuronidase activity) and mesophyll protoplasts of a diploid wild-type clone of N. plumbaginifolia (2n=2x=20). Hybrid calli were obtained after continuous culture on selection medium containing kanamycin. Parental chromosome numbers, determined at 2 months after fusion, revealed hybrid-specific differences between the individual calli. On the basis of these differences three categories of hybrids were distinguished. Category I hybrids contained between 8 and 24 potato chromosomes and more than 20 N. plumbaginifolia chromosomes; category II hybrids had between 1 and 20 N. plumbaginifolia chromosomes and more than 24 potato chromosomes; category III hybrids contained diploid or subdiploid numbers of chromosomes from both parents. The hybrids were evenly distributed over the three categories. After a 1-year culture of 24 representative hybrid callus lines on selection medium the karyotype of 10 hybrids remained stable, whereas 8 hybrids showed polyploidization of the genome of one parent, together with no or minor changes of the chromosome numbers of the other parent. Six hybrids showed slight changes in the hybrid karyotype. The elimination of chromosomes of a particular parent was not correlated to their metaphase location. The processes of spontaneous biparental chromosome elimination leading to the production of asymmetric hybrids of different categories are discussed.     

Molecular genetic characterization of plant somatic hybrids

An efficient and easy method for genetic characterization of plant somatic hybrids is proposed. In a first qualitative approach, four somatic hybrids and their parental species (Nicotiana tabacum andN. plumbaginifolia) were characterized by DNA fingerprinting and Random Amplification of Polymorphic DNA (RAPD). After this, a quantitative estimation of the degree of parental contribution to the hybrids was carried out by means of a slot-blot analysis. Both qualitative methods, showed one hybrid identical toN. tabacum, two almost identical toN. plumbaginifolia, and a fourth similar to this parental species, but with someN. tabacum admixture. The quantitative method, for the same hybrids, gave 83%, 7%, 7%, and 37%N. tabacum DNA contribution, respectively.     

Production of asymmetric somatic hybrid plants between Cichorium intybus L. and Helianthus annuus L.

In order to obtain male-sterile asymmetric somatic hybrids between chicory (Cichorium intybus L.) and a sunflower (Helianthus annuus L.) male-sterile cytoplasmic line, mesophyll chicory protoplasts inactivated with iodoacetic acid and hypocotyl sunflower protoplasts irradiated with γ-rays have been fused, using PEG and applying two different procedures. Thirty three plants were regenerated from putative hybrid calli. A cytological analysis of their root-tip cells indicated that most of them had 18 chromosomes, the same number as chicory. Through Southern hybridisation on total DNA using the maize mitochondrial specific gene probes Cox I, Cox II and Cob, three plants were identified as cytoplasmic asymmetric hybrids, as shown by hybridisation bands specific for both chicory and sunflower. One of the regenerated plants produced a novel pattern of hybridisation that was not detected in either parent. When hybridisation of total DNA was carried out with an atpA mitochondrial gene probe the same three cybrids presented both the fertile chicory fragment and the male-sterile sunflower fragment. Finally, Southern hybridisation with an ORF 522 probe, which in sunflower is co-transcribed with the atpA gene, confirmed the hybrid nature of the three plants. The morphology of the cybrids resembled the parental chicory phenotype, and at anthesis their anthers produced fewer pollen grains which could not germinate either ”in vitro” or ”in situ.” Cybrid plants grown in the field produced seeds when free-pollination occurred. Received: 26 April 2000 / Accepted: 28 August 2000     

Transmission genetics of the somatic hybridization process in Nicotiana

Summary Callus protoplasts of a Nicotiana tabacum chlorophyll-deficient mutant were fused with mesophyll protoplasts from one of following five sources: 4 cmsanalogs of tobacco bearing the cytoplasms of N. plumbaginifolia, N. suaveolens, N. repanda, and N. undulata, respectively, as well as wild species N. glauca. In another series of experiments, callus protoplasts from the chlorophyll-deficient genome Su/Su mutant of tobacco were fused with mesophyll protoplasts of the wild species N. glauca and those of a plastome chlorophyll-deficient tobacco mutant. The screening of hybrids consisted of visual identification followed by mechanical isolation and cloning of heteroplasmic fusion products in microdroplets of nutrient medium. Studies of regenerated plants included the analyses of gross morphology of plants, leaf and flower morphology, analysis of chromosome size and morphology and chromosome numbers, studies of multiple molecular forms of esterase and amylase, analysis of chloroplast DNA restriction patterns and analyses of chlorophyll-deficiency controlled by Su and P ^– genes. The study of progeny of 41 clones representing all species' combinations demonstrated that regenarants of most (63%) clones from intraspecific (for nuclear genes) combinations were cybrid forms, whereas in the case of the fusion N. tabacum + N. glauca, the true nuclear hybrids prevailed and the proportion of cybrids did not exceed 26%. Clones regenerating both hybrid and cybrid plants from the same fusion product were also found.     

Rare symmetric and asymmetric Nicotiana tabacum (+) N. megalosiphon somatic hybrids recovered by selection for nuclear-encoded resistance genes and in the absence of genome inactivation

Following protoplast fusion between Nicotiana tabacum (dhfr) and N. megalosiphon (nptII) somatic hybrids were selected on the basis of dual resistance to kanamycin and methotrexate. Despite strong selection for parental nuclear-encoded resistances, only nine N. tabacum (+) N. megalosiphon somatic hybrids were obtained. A preferential loss of the parental N. tabacum nuclear and organelle genome was apparent in some plants in spite of the lack of genomic inactivation by the irradiation or chemical treatment of the parental protoplasts. Only six of the nine hybrids recovered possessed both parental profiles of nuclear RFLPs and isoenzymes. The remaining three hybrids were highly asymmetric with two being identical to N. megalosiphon except for minor morphological differences and rearranged or recombined mitochondrial DNAs (mtDNA), while the other one was distinguishable only by the presence of a rearranged or recombined mtDNA, and was therefore possibly a cybrid. Overall, eight somatic hybrids possessed rearranged or recombined mtDNAs and chloroplast inheritance was non-random since eight possessed N. megalosiphon-type chloroplasts and only one had N. tabacum chloroplasts. In contrast, using the same selection approach, numerous morphologically similar symmetric somatic hybrids with nuclear RFLPs and isozymes of both the parental species were recovered from control fusions between N. tabacum and the more closely related N. sylvestris. In spite of the low frequency of recovery of symmetric N. tabacum (+) N. megalosiphon hybrids in this study, one of these hybrids displayed a significant degree of self-fertility allowing for back-crosses to transfer N. megalosiphon disease-resistance traits to N. tabacum. Plant Research Centre Contribution No. 1579     

Asymmetric hybridization in Nicotiana by fusion of irradiated protoplasts

Summary Mesophyll protoplasts of a kanamycin-resistant, nopaline-positive Nicotiana plumbaginifolia seed line were inactivated by -irradiation and electrically fused with unirradiated mesophyll protoplasts of N. tabacum. Hybrids were selected on kanamycin and regenerated. Genetic material from N. plumbaginifolia was detected in these plants by the following criteria: (1) morphology, (2) esterase isozyme profiles, and (3) the presence of nopaline in leaf extracts. All of the plants regenerated were morphologically more similar to N. tabacum than to N. plumbaginifolia, and many were indistinguishable from N. tabacum. It was found that 37 plants displayed one or two esterases characteristic of N. plumbaginifolia in addition to a full set of esterases from N. tabacum. Based on their esterases, we have classified these plants as somatic hybrids. However, irradiation has clearly reduced the amount of N. plumbaginifolia genetic material that they retain; 24 plants were found that had only N. tabacum esterases but that produced nopaline and were kanamycin resistant. Genomic DNA from several of these plants was probed by Southern blotting for the presence of the authentic neomycin phosphotransferase gene (kanamycin-resistance gene) — all were found to contain the gene. These plants were classified as asymmetric hybrids. Finally, 25 plants were regenerated that were kanamycin sensitive, negative for nopaline, and contained only N. tabacum esterases. All of the regenerated plants, including this final category, were male sterile. As transferring the N. plumbaginifolia cytoplasm to an N. tabacum nuclear background results in an alloplasmic form of male sterility, all of the plants regenerated in this study appear to be cybrids irrespective of their nuclear constitution. Chromosome analysis of the asymmetric hybrids showed that most of them contained one more chromosome than is normal for N. tabacum. The somatic hybrids examined all had several additional chromosomes. Although male sterile, the asymmetric hybrids were female fertile to varying degrees and were successfully backcrossed with N. tabacum. Analysis of the resultant F₁ progeny indicated that the kanamycin-resistance gene from N. plumbaginifolia is partially unstable during meiosis, as would be expected for factors inherited on an unpaired chromosome.Abbreviations Km ^r kanamycin resistant - Km ^s kamacysin sensitive - Nop ⁺ nopaline positive - Nop ^– nopaline negative     

Chromosomes in somatic hybrids between Nicotiana plumbaginifolia and a monoploid potato

Summary Leaf mesophyll protoplasts of the monohaploid potato (Solanum tuberosum L.) clone H7322 were fused with callus protoplasts of nitrate reductase deficient (NR^–) mutants Cnx 20 and NA 36 of Nicotiana plumbaginifolia. Somatic hybrid lines were selected for nitrate reductase proficiency. All callus lines tested appeared to be stable for the retention of the potato chromosome carrying the compensating NR gene when grown for over 1.5 years in the absence of nitrate. Shoots were regenerated from six different fusion lines of Cnx 20 + H7322 24 months after fusion. Chromosomal analysis in callus cultures revealed that in both fusion combinations 40–120 N. plumbaginifolia chromosomes were present, as were 9–20 potato chromosomes. Cells with 17 potato chromosomes in combination with a relatively small number (31) of N. plumbaginifolia chromosomes were found in one line. Preferential loss of species-specific chromosomes was not observed. Analysis of regenerating tissue from three lines of Cnx 20 + H7322 revealed that after 24 months of culture intra- and intergeneric translocations, fragments and deletions were present. Elimination of the potato and N. plumbaginifolia chromosomes had taken place before and after genome doubling.     

Chromosomal analysis of Nicotiana asymmetric somatic hybrids by dot blotting and in situ hybridization

Summary A species-specific, dispersed repetitive DNA sequence was cloned from Nicotiana plumbaginifolia and used in dot blots and in situ hybridizations to analyze asymmetric somatic hybrids of N. tabacum(+)kanamycin-resistant N. plumbaginifolia. Dot blot hybridization data, using the cloned, species-specific repetitive DNA as a probe, showed that some of the hybrids contain only 1%–5% N. plumbaginifolia DNA, whereas others contain 15%–25%. In situ hybridization of the probe to chromosome spreads showed that the extremely asymmetric hybrids retain a single N. plumbaginifolia chromosome; the hybrids with higher dot blot values were found to have 8 to 12 N. plumbaginifolia chromosomes and chromosome fragments. In situ hybridization also revealed translocations between N. plumbaginifolia and N. tabacum chromosomes in 3 of 8 hybrids studied. RFLP analysis using a 5S gene probe showed the presence of N. plumbaginifolia-specific 5S banding patterns in most hybrids examined, including those that retain only a single N. plumbaginifolia chromosome.     

Translocation events demonstrated by molecular,in situ hybridization and chromosome pairing analyses in highly asymmetric somatic hybrid plants

Cytological analyses show rearranged chromosomes in some highly asymmetric nuclear hybrids obtained after fusion of mesophyll protoplasts ofNicotiana plumbaginifolia (wild type) with γ-irradiated (100 krad), kanamycin-resistant mesophyll protoplasts ofPetunia hybrida. Molecular, cytogenetic andin situ hybridization analyses performed on the asymmetric somatic hybrid P₁, previously identified as having a clearly metacentric chromosome besides a nearly completeNicotiana chromosome complement, are reported. Meiotic analysis andin situ hybridization experiments using ribosomal DNA as a probe showed that this metacentric chromosome represents a translocation of a chromosome fragment onto chromosome 9 ofN. plumbaginifolia. Southern hybridization with an rDNA probe showed that onlyNicotiana-specific rDNA was present.In situ hybridization experiments, using total genomic DNA ofP. hybrida as a probe, demonstrated that the translocated fragment representedPetunia DNA.     

Hybridisation experiments with protoplasts from chlorophyll-deficient mutants of some Solanaceous species

Following fusion between protoplasts from two different chlorophyll-deficient diploid mutants of Datura innoxia Mill. it was possible to select 33 green hybrid calli on agar culture medium. Half of the somatic hybrids gave rise to leaves and some to shoots. The chromosome number of 20 somatic hybrids was determined: five were tetraploid, eight hexaploid, three octoploid, and four showed an aneuploid chromosome number. After transfer of the shoots of the five tetraploid hybrids to soil they developed roots. In control experiments in which protoplasts of the two mutants were cultured either as a mixture without being treated with the fusion agent, or cultured separately, no green callus could be obtained. Similar experiments involving protoplasts from one chlorophyll-deficient mutant of Datura innoxia, on the one hand, and those from similar mutants of Nicotiana sylvestris Spegazz. et Comes and Petunia hybrida, on the other, yielded no green somatic hybrid although hybrid protoplasts could be detected.