A cell line of Nicotiana sylvestris with resistance to kanamycin and streptomycin

Summary Cell lines resistant to 50 g ml^-1 kanamycin sulphate were isolated from cell suspension cultures initiated from a haploid Nicotiana sylvestris plant. One line, KR103, has been studied in detail. Resistance of this line was shown to be stable in the absence of the drug. KR103 was found also to be resistant to streptomycin, another inhibitor of 70S ribosomal protein synthesis.Both KR103 and the sensitive line convert kanamycin, but not streptomycin, to a form which is no longer effective in a bacterial bioassay, while maintaining its toxicity for sensitive plant cells.KR103 is defective in morphogenesis and plastid development.     

Genetic instability in somatic hybrids of Nicotiana tabacum and Nicotiana knightiana

Summary Somatic hybrids of Nicotiana knightiana (2n=2X=24) and an albino mutant of Nicotiana tabacum (2n=4X=48) were selected after polyethylene glycol induced protoplast fusion. Three lines were selected on the basis of the simultaneous expression of shoot inducibility and green pigmentation, traits originally separated in the parental species.The hybrid nature of the lines was confirmed by their characteristic isoenzyme patterns, the morphology of the regenerated plants, and by the appearance of heterochromatic blocks in the interphase nuclei.Chromosome numbers in the somatic hybrids varied greatly within individual plants. Variegation in leaf and flower colour and segregation for morphological traits in vegetatively multiplied plants are attributed to segregation of chromosomes in the somatic cells, a consequence of the numerical instability. Hybridity, caryotypic changes induced by tissue culture, and high chromosome numbers, are discussed as possible reasons for the observed genetic instability.     

Isolation of somatic hybrids by cloning Nicotiana heterokaryons in nurse cultures

Fusion of Nicotiana knightiana Goodsp. and kanamycin resistant Nicotiana sylvestris Speg. et Com. protoplasts was induced by polyethylene glycol treatment. Heterokaryons were isolated by micropipette and transferred to nurse cultures of albino cells. Colonies originating from the heterokaryons could subsequently be distinguished by their green colour. The somatic hybrid nature of four such colonies was confirmed by isoenzyme pattern, kanamycin resistance and restored morphogenic potential. An additional kanamycin resistant line with characteristic Nicotiana knightiana isoenzymes was also found indicating that the drug resistance in the kanamycin resistant parent is under cytoplasmic control.Abbreviations ADH alcohol dehydrogenase - Nk Nicotiana knightiana     

Spontaneous extensive chromosome elimination in somatic hybrids between somatically congruent species Nicotiana tabacum L. and Atropa belladonna L.

Summary Mesophyll protoplasts of the kanamycin-resistant nightshade, Atropa belladonna, were fused with mesophyll protoplasts of the phosphinothricin resistant-tobacco, Nicotiana tabacum. A total of 447 colonies resistant to both inhibitors was selected. Most of them regenerated shoots with morphology similar to one of the earlier obtained and described symmetric somatic hybrids Nicotiana + Atropa. However, three colonies (0.2%) regenerated vigorously growing tobacco-like shoots; they readily rooted, and after transfer to soil, developed into normal, fertile plants. Unlike their tobacco parental line, BarD, the obtained plants are resistant to kanamycin [they root normally in the presence of kanamycin (200 mg/1)] and possess activity of neomycin phosphotransferase (NPT II) with the same electrophoretic mobility as the one of the nightshade line. According to Southern blot hybridization analysis carried out with the use of radioactively labeled cloned fragments of the Citrus lemon ribosomal DNA repeat, as well as with Nicotiana plumbaginifolia genus-specific, interspersed repeat Inp, the kanamycin-resistant plants under investigation have only species-specific hybridizing bands from tobacco. Cytological analysis of the chromosome sets shows that plants of all three lines possess 48 large chromosomes similar to Nicotiana tabacum ones (2n = 48), and one small extra chromosome (chromosome fragment) similar to Atropa belladonna ones (2n = 72). Available data allow the conclusion that highly asymmetric, normal fertile somatic hybrids with a whole diploid Nicotiana tabacum genome and only part (not more than 2.8%) of an Atropa belladonna genome have been obtained without any pretreatment of a donor genome, although both these species are somatically congruent.     

Cross-resistance in Cell Lines of Nicotiana sylvestris Selected for Resistance to Individual Antibiotics

Cell lines initially selected for resistance to the antibioticskanamycin, streptomycin and chloramphenicol, were each testedfor resistance to several different antibiotics. Only the kanamycinresistant lines showed any cross-resistance to other antibiotics.The three lines tested were resistant to streptomycin and neomycin,while one of them, KR103, was also resistant to chloramphenicolearly in its history, although this resistance was subsequentlylost. None of the lines showed any resistance to cycloheximide. Nicotiana sylvestris, cell culture, cross-resistance, antibiotics, chloramphenicol, kanamycin, streptomycin, neomycin, cycloheximide, cytoplasmic mutants, callus     

Somatic hybridization between selected Lycopersicon and Solanum species

Summary Mesophyll protoplasts of an interspecific Lycopersicon esculentum Mill, (tomato) x Lycopersicon pennellii hybrid plant (EP) were fused with callus-derived protoplasts of Solanum lycopersicoides Dun. using a modified PEG/DMSO procedure. The EP plant was previously transformed by Agrobacterium tumefaciens which carried the NPTII and nopaline synthase genes. Protoplasts were plated at 10⁵/ml in modified KM medium and 16 days post-fusion 25 ug/ml kanamycin was added to the culture medium. During shoot regeneration, 212 morphologically similar putative somatic hybrids were delineated visually from kanamycin resistant EP's. Forty-eight shoots, randomly selected among the 212, were further verified as somatic hybrids by their leaf phosphoglucoisomerase heterodimer isozyme pattern. However, the resulting plants were virtually pollen sterile. In a second fusion, mesophyll protoplasts of Solanum melongena (eggplant) were fused with EP callus-derived protoplasts. Using the same fusion and culture procedure, only two dark green calli were visually selected among the pale green parental EP and verified as somatic cell hybrids by several isozyme patterns. These two calli have produced only leaf primordia in one and half years on regeneration medium.Abbreviations ABA abscisic acid - BAP 6 benzylaminopurine - 2,4-D 2,4 dichlorophenoxy acetic acid - DMSO dimethyl sulfoxide - GA₃ gibberellic acid - GOT glutamate oxaloacetate - IAA indoleacetic acid - IBA indolebutyric acid - IDH isocitrate dehydrogenase - MDH malate dehydrogenase - MES morpholinoethane-sulfonic acid - PEG polyethylene glycol - 6-PGDH 6 phosphogluconate dehydrogenase - PGI phosphoglucoisomerase     

A Lactuca universal hybridizer, and its use in creation of fertile interspecific somatic hybrids

A Lactuca sativa cv. Ardente line heterozygous for a gene encoding resistance to kanamycin, a positive and dominant trait, was crossed with cv. Girelle, which is heterozygous for a recessive albinism marker. The resulting seeds yielded 25% albino seedlings, of which 50% were also resistant to kanamycin. Such plantlets (KR, a) grown in vitro were used for preparation of universal hybridizer protoplasts, since green buds that can develop on kanamycin containing-medium should result from fusion with any wild-type protoplast. To test the practicability of this selection scheme, we fused L. sativa KR, a protoplasts with protoplasts derived from various wild Lactuca as well as various other related species. Protoplast-derived cell colonies were selected for resistance to kanamycin at the regeneration stage. Green buds were regenerated after fusion with protoplasts of L. tatarica and of L. perennis. So far, 9 interspecific hybrid plants have been characterized morphologically. In addition, random amplified polymorphic DNA (RAPD) analysis with selected primers confirmed that these plants are indeed interspecific hybrids. Some plants are female-fertile and production of backcross progenies with L. sativa is in progress. Since many desirable traits such as resistances to viruses, bacteria and fungi (Bremia lactucae) have been characterized in wild Lactuca species, the use of somatic hybridization in breeding programmes now appears a practical possibility.     

Non-random chloroplast segregation inNicotiana tabacum (+)N. rustica somatic hybrids selected by dual nuclear-encoded resistance

Nicotiana tabacum (+)N. rustica interspecific somatic hybrids were produced by fusion of leaf mesophyll protoplasts of transgenic methotrexate-resistantNicotiana tabacum L. with leaf mesophyll protoplasts of transgenic kanamycin-resistantN. rustica L. Somatic hybrids were selected on the basis of resistance to both methotrexate and kanamycin. Evidence for nuclear hybridization was obtained for 21 hybrids by restriction-fragment-length-polymorphism (RFLP) analysis using a heterologous wheat nuclear ribosomal-DNA (rDNA) probe and by analysis of glutamate-oxaloacetate transaminase (GOT) isoenzymes. Chloroplasts segregated non-randomly as 20 of the somatic hybrids possessedN. rustica chloroplasts and only one hadN. tabacum chloroplasts. Patterns of mitochondrial inheritance were examined by hybridization of a heterologous wheat cytochrome oxidase subunit II (coxII) gene with genomic DNA of the somatic hybrids. Four somatic hybrids with hybridization patterns similar toN. rustica and 17 with hybridization patterns consistent with mitochondrial DNA (mtDNA) rearrangement or recombination were obtained. None of the somatic hybrids had patterns ofcoxll hybridization identical withN. tabacum. Male-fertility levels in the hybrids ranged from undetectable to 87% and only nine hybrids produced a limited amount of viable seed. There was no apparent correlation between the patterns of organelle inheritance in the somatic hybrids and the relative degree of fertility.Contribution No. 1439 Plant Research CentreCurrent address: Plant Biotechnology Institute, National Research Council, 110 Gymmasium Road, Saskatoon, Saskatchewan S7N OW9, Canada     

Production of somatic hybrids between Daucus carota L. and Nicotiana tabacum

Protoplasts of a kanamycin-resistant (KR, nuclear genome), streptomycin-resistant (SR, chloroplast genome) and chlorophyll-deficient (A1, nuclear genome) Nicotiana tabacum (KR-SA) cell suspension cultures or X-ray-irradiated mesophyll protoplasts of kanamycin- and streptomycin-resistant green plants (KR-SR) were fused with protoplasts of a cytoplasmic male-sterile (CMS) Daucus carota L. cell suspension cultures by electrofusion. Somatic hybrid plants were selected for kanamycin resistance and the ability to produce chlorophyll. Most of the regenerated plants had a normal D. carota morphology. Callus induced from these plants possessed 23–32 chromosomes, a number lower than the combined chromosome number (66) of the parents, and were resistant to kanamycin, but they segregated for streptomycin resistance, which indicated that N. tabacum chloroplasts had been eliminated. Genomic DNA from several regenerated plants was analyzed by Southern hybridization for the presence of the neomycin phosphotransferase gene (NPTII); all of the plants analyzed were found to contain this gene. Mitochondrial (mt) DNA was analyzed by Southern hybridization of restriction endonuclease digests of mtDNA with two DNA probes, PKT5 and coxII. The results showed that the two plants analyzed possessed the mitochondria of D. carota. These results demonstrate that the regenerated plants are interfamilial somatic hybrids.     

Effect of <Emphasis Type="Italic">NtDCN1</Emphasis> gene activated during embyogenesis on organogenesis in tobacco tissue culture

The role of NtDCN1 gene in organogenesis in the culture of tobacco (Nicotiana tabacum L.) somatic tissues was studied. This gene is specifically expressed in tobacco microspores induced for somatic embryogenesis. This gene knockout resulted in a disturbance of formation and development of embyoids from microspores. In leaf disks and calli derived from tobacco lines with active and inactivated NtDCN1 gene, we studied induction of shoots and roots. A comparative analysis of tobacco line morphogenetic responses in vitro showed that NtDCN1 gene inactivation enhanced shoot formation and suppressed rhizogenesis, whereas this gene reactivation returned organogenesis processes to control level. Difference between lines was manifested only at a definite ratio between exogenous hormones supplied. The involvement of NtDCN1 gene in line responses to exogenous auxin is discussed. The results obtained permit a supposition that the NtDCN1 gene is critical for regulation not only somatic embryogenesis but also organogenesis.     

Co-segregation of nitrate-reductase activity and normal regeneration ability in selfed sibs of Nicotiana plumbaginifolia somatic hybrids,heterozygotes for nitrate-reductase deficiency

Summary The nitrate-reductase (NR) defective cell lines of Nicotiana plumbaginifolia isolated in our laboratory could not be regenerated into plants on the standard medium (Márton et al. 1982 a). The normal regeneration potential, however, was restored in somatic hybrids obtained by fusing the NR^– (green) lines with a pigment deficient (P^–), but NR⁺ line, A28. Somatic hybrid plants were fertile in two combinations (A28 + NA9 and A28 + NX9). As expected, segregation for NR^– and P^– was found after selfing the somatic F1 (SF1) obtained by protoplast fusion, and in the F2. The variable segregation ratios are explained by chromosome abnormalities. Co-segregation of the NR^– phenotype and the altered response to shoot induction on standard medium suggest the involvement of the nitrate-assimilatory pathway in determining shoot regeneration ability.     

Chlorate-resistant variants of Nicotiana tabacum L.

Summary In somatic hybrids of each of four chlorate-resistant cell lines of Nicotiana tabacum L., two of which were also nitrate-nonutilizing, and a common chlorate-sensitive parent, nitrate utilization and/or chlorate resistance were found to be recessive traits. Complementation for nitrate utilization was observed in somatic hybrids of the two nitrate-nonutilizing cell lines. No chlorate-resistant or nitrate-nonutilizing seedlings were detected among a large number of progeny resulting from the self-fertilization of a somatic hybrid plant one of whose parents was one of the nitrate-nonutilizing cell lines.     

Cybridization in Nicotiana tabacum L. using double inactivation of parental protoplasts and post-fusion selection based on nuclear-encoded and chloroplast-encoded marker genes

An effective selection system preceded by double inactivation of parental protoplasts was used to transfer Nicotiana suaveolens Leh. cytoplasmic male sterility into a commercial tobacco (N. tabacum L.) breeding line. Mesophyll protoplasts from transformed plants of N. tabacum cultivar WZ2-3-1-1 possessing a neomycin phosphotransferase II gene were used as the nuclear donors, while those isolated from N. suaveolens plants carrying a chloroplast mutation for resistance to spectinomycin, induced using nitrosomethyl urea, were the cytoplasm donors in somatic cybridizations. Prior to fusion, nuclear donor protoplasts were inactivated with iodoacetamide or rhodamine 6G, while those of the cytoplasm donor were inactivated by X-irradiation. The resultant microcalli were cultured on a shoot regeneration medium containing both kanamycin and spectinomycin to select cybrids. Only regenerants that had typical characteristics of the N. tabacum cultivar were selected for transfer to the glasshouse. Four putative cytoplasmic male-sterile (CMS) plants, out of a total of 44 regenerated plants transferred to the glasshouse, were obtained. Intraspecific somatic transfers of the CMS trait between N. tabacum cultivars with distinctlydifferent morphologies using single inactivation and nonselective shoot regeneration medium were demonstrated. The implications of the results for practical tobacco breeding as a means of circumventing lengthy backcrossing procedures are discussed.     

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     

Complementation analysis of a nitrate reductase deficient Hyoscyamus muticus cell line by somatic hybridisation

Summary Complementation of a nitrate reductase deficient variant of Hyoscyamus muticus (MA-2) and nitrate reductase apoenzyme (nia-115) and cofactor mutants (cnx-68) of Nicotiana tabacum was studied by protoplast fusion. Selection of prototrophic intergeneric somatic hybrids was achieved in combination of MA-2 with the apoenzyme mutant nia-115 of N. tabacum. The H. muticus MA-2 line was therefore classified to be a cnx type variant possessing an altered molybdenum cofactor of the nitrate reductase enzyme complex but unaffected in the apoprotein of nitrate reductase. The nitrate reductase deficient and chlorate resistant characters of MA-2 were functionally coupled recessive traits. Nitrate reductase activity accompanied by chlorate sensitivity could be detected only under inductive conditions in the somatic hybrids. The inductive expression of nitrate reductase in the somatic hybrids arising from the combination of cells harbouring either the inductive or constitutive type nitrate reductase is discussed.Abbreviations DTT 1,4-Dithio-DL-threitol - Mo-co molybdenum containing cofactor - PEG polyethylene glycol     

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     

Novel class of rDNA repeat units in somatic hybrids between Nicotiana and Atropa

Summary Behavior of ribosomal RNA genes in the process of somatic hybridization was analyzed using hybrids Nicotiana tabacum + Atropa belladonna. Blothybridization of parental species DNAs to ³²P-rDNA specific probes revealed two classes of ribosomal repeats in both tobacco and nightshade; their length was 11.2 kb, 10.4 kb (tobacco) and 9.4 kb, 10.2 kb (night-shade). For analysis of hybrids, labelled ³²P rDNA specific probes were hybridized to DNA of parental species and somatic hybrids digested with restriction endonucleases EcoR1, EcoRV and BamH1. A new class of ribosomal DNA repeat, absent in parental species, was found in hybrid line NtAb-1. Possible mechanisms of appearence of a new rDNA class in the process of somatic cell fusion are discussed.     

Random chloroplast segregation and frequent mtDNA rearrangements in fertile somatic hybrids between Nicotiana tabacum L. and N. glutinosa L.

Patterns of organelle inheritance were examined among fertile somatic hybrids between allotetraploid Nicotiana tabacum L. (2n=4x=48) and a diploid wild relative N. glutinosa L. (2n=2x=24). Seventy somatic hybrids resistant to methotrexate and kanamycin were recovered following fusion of leaf mesophyll protoplasts of transgenic methotrexate-resistant N. tabacum and kanamycin-resistant N. glutinosa. Evidence for hybridization of nuclear genomes was obtained by analysis of glutamate oxaloacetate transaminase and peroxidase isoenzymes and by restriction fragment length polymorphism (RFLP) analysis using a heterologous nuclear ribosomal DNA probe. Analysis of chloroplast genomes in a population of 41 hybrids revealed a random segregation of chloroplasts since 25 possessed N. glutinosa chloroplasts and 16 possessed N. tabacum chloroplasts. This contrasts with the markedly non-random segregation of plastids in N. tabacum (+)N. rustica and N. tabacum (+) N. debneyi somatic hybrids which we described previously and which were recovered using the same conditions for fusion and selection. The organization of the mitochondrial DNA (mtDNA) in 40 individuals was examined by RFLP analysis with a heterologous cytochrome B gene. Thirty-eight somatic hybrids possessed mitochondrial genomes which were rearranged with respect to the parental genomes, two carried mtDNA similar to N. tabacum, while none had mtDNA identical to N. glutinosa. The somatic hybrids were self-fertile and fertile in backcrosses with the tobacco parent.Contribution No. 1487 Plant Research Centre     

Somatic hybridization in the gramineae: Pennisetum americanum (L.) K. Schum. (Pearl millet) +Panicum maximum Jacq. (Guinea grass)

Summary Protoplasts from Pennisetum americanum resistant to S-2-amino-ethyl-l-cysteine (AEC) were fused with protoplasts of Panicum maximum utilizing polyethylene glycol-dimethylsulfoxide after inactivation of the Pennisetum protoplasts with 1 mM iodoacetic acid. The iodoacetate treatment prevented division of Pennisetum protoplasts; therefore, only Panicum protoplasts and heterokaryons potentially could give rise to colonies. A second level of selection was imposed by plating 3–4-week-old colonies on AEC medium. Putative somatic hybrid calli were analyzed for alcohol dehydrogenase, 6-phosphogluconate dehydrogenase, aminopeptidase, and shikimate dehydrogenase isozymes. Three somatic hybrid cell lines (lines 2, 3, and 67) were identified which showed two bands of alcohol dehydrogenase activity representing homodimers of P. maximum and P. americanum as well as a novel intermediate band of activity where Panicum-Pennisetum heterodimers would be expected. Aminopeptidase and shikimate dehydrogenase were useful for identifying presumptive hybrid calli but the isozyme patterns were additive-evidence which would not preclude the selection of chimeric callus. A more complex isozyme pattern which varied among the somatic hybrids was observed for 6-phosphogluconate dehydrogenase. In the hybrid calli, the presence of DNA sequences homologous to both P. maximum and P. americanum sequences was confirmed by hybridization of a maize ribosomal DNA probe to XbaI and EcoRI restriction fragments. Growth of hybrid lines on various concentrations of AEC was either similar to the AEC-resistant parent (hybrid line 2) or intermediate between the resistant and sensitive parents (hybrid lines 3, 67).     

Asymmetric hybridization between Nicotiana tabacum and N. repanda by donor recipient protoplast fusion: transfer of TMV resistance

Summary Genetically asymmetric hybrids were recovered by fusion of Nicotiana tabacum protoplasts with irradiated protoplasts of kanamycin-resistant, nopalineproducing plants of N. repanda. Hybrid calli were selected by culture on media containing kanamycin and were regenerated. These plants were morphologically similar to N. tabacum but produced nopaline, indicating they retained genes from N. repanda. Esterase isozyme profiles also indicated that the plants are somatic hybrids, but are more similar to N. tabacum than N. repanda. Chromosome counts showed most of the hybrids had 55–62 chromosomes, which is consistent with extensive, although incomplete elimination of N. repanda chromosomes. The hybrids were largely male sterile, but about half of them set seed when crossed with N. tabacum. Chromosome numbers of the progeny and the pattern of inheritance of kanamycin resistance indicated the continued elimination of N. repanda genetic material in these backcrosses. The N. repanda parent used in these fusions gave a hypersensitive response to TMV, whereas the N. tabacum parent was TMV sensitive. When inoculated with TMV, plants from two hybrid clones gave a hypersensitive response. Plants from the other clones became systemically infected with the virus.