Assignment of DNA markers to Nicotiana sylvestris chromosomes using monosomic alien addition lines

 A sesquidiploid hybrid (PPS, 2n=32) between Nicotiana plumbaginifolia (PP, 2n=20) and N. sylvestris (SS, 2n=24) was backcrossed to N. plumbaginifolia to produce monosomic alien addition lines. A total of 89 2n=21 plants, each containing two sets of N. plumbaginifolia chromosomes and a single N. sylvestris chromosome, were obtained in the BC₁ and BC₂ generations. These plants were classified into 12 groups based on morphological characteristics. The N. sylvestris chromosomes in these plants were identified by RFLP and karyotype analyses. Among the 84 probes tested, 20 could not detect N. sylvestris-specific DNA bands, and the remaining 64 were assigned to 9 normal and 6 aberrant synteny groups. The 9 normal synteny groups corresponded to chromosomes 2, 4, 5, 6, 7, 8, 9, 10 and 12, respectively. Four aberrant synteny groups were the result of chromosome translocations, and 2 were deletions. Received: 10 April 1996 / Accepted: 5 July 1996     

A genetic linkage map of Nicotiana plumbaginifolia/ Nicotiana longiflora based on RFLP and RAPD markers

We have constructed a genetic linkage map for Nicotiana plumbaginifolia/Nicotiana longiflora (2n= 2x=20), based on the segregation of 69 RFLP and 102 RAPD loci in 99 F₂ plants from the cross N. plumbaginifolia×N. longiflora. The map consists of nine major linkage groups, each containing more than nine marker loci, and spans 1062 cM. Twenty of the RFLP markers were mapped previously to Nicotiana sylvestris (2n=2x=24) chromosomes using monosomic alien addition lines. Taxonomically, N. plumbaginifolia and N. sylvestris belong to the same section, namely the Alatae; however, cytogenetic evidence indicates that they are not closely related. Comparison of the distribution of markers common to both maps suggests that genome reorganization has occurred during the evolution of these two species. Evidence is also presented that genome reorganization may be accompanied by gain and loss of specific classes of DNA sequences in their genomes.     

The fate of recombinant chromosomes and genome interaction in Nicotiana asymmetric somatic hybrids and their sexual progeny

Genomic in-situ hybridization (GISH) was used to monitor the behaviour of parental genomes, and the fate of intergenomic chromosome translocations, through meiosis of plants regenerated from asymmetric somatic hybrids between Nicotiana sylvestris and N. plumbaginifolia. Meiotic pairing in the regenerants was exclusively between chromosomes or chromosome segments derived from the same species. Translocation (recombinant) chromosomes contained chromosome segments from both parental species, and were detected at all stages of meiosis. They occasionally paired with respectively homologous segments of N. sylvestris or N. plumbaginifolia chromosomes. Within hybrid nuclei, the meiotic division of N. plumbaginifolia lagged behind that of N. sylvestris. However, normal and recombinant chromosomes were eventually incorporated into dyads and tetrads, and the regenerants were partially pollen fertile. Recombinant chromosomes were transmitted through either male or female gametes, and were detected by GISH in sexual progeny obtained on selfing or backcrossing the regenerants to N. sylvestris. A new recombinant chromosome in one plant of the first backcross generation provided evidence of further chromosome rearrangements occurring at, or following, meiosis in the original regenerants. This study demonstrates the stable incorporation of chromosome segments from one parental genome of an asymmetric somatic hybrid into another, via intergenomic translocation, and reveals their transmission to subsequent sexual progeny.     

Gene conversion of ribosomal DNA in Nicotiana tabacum is associated with undermethylated, decondensed and probably active gene units

We examined the structure, intranuclear distribution and activity of ribosomal DNA (rDNA) in Nico-tiana sylvestris (2n=2x=24) and N. tomentosiformis (2n=2x=24) and compared these with patterns in N. tabacum (tobacco, 2n=4x=48). We also examined a long-established N. tabacum culture, TBY-2. Nicotiana tabacum is an allotetraploid thought to be derived from ancestors of N. sylvestris (S-genome donor) and N. tomentosiformis (T-genome donor). Nicotiana sylvestris has three rDNA loci, one locus each on chromosomes 10, 11, and 12. In root-tip meristematic interphase cells, the site on chromosome 12 remains condensed and inactive, while the sites on chromosomes 10 and 11 show activity at the proximal end of the locus only. Nicotiana tomentosiformis has one major locus on chromosome 3 showing activity and a minor, inactive locus on chromosome 11. In N. tabacum cv. 095-55, there are four rDNA loci on T3, S10, S11/t and S12 (S11/t carries a small T-genome translocation). The locus on S12 remains condensed and inactive in root-tip meristematic cells while the others show activity, including decondensation at interphase and secondary constrictions at metaphase. Nicotiana tabacum DNA digested with methylcytosine-sensitive enzymes revealed a hybridisation pattern for rDNA that resembled that of N. tomentosiformis and not N. sylvestris. The data indicate that active, undermethylated genes are of the N. tomentosiformis type. Since S-genome chromosomes of N. tabacum show rDNA expression, the result indicates rDNA gene conversion of the active rDNA units on these chromosomes. Gene conversion in N. tabacum is consistent with the results of previous work. However, using primers specific for the S-genome rDNA intergenic sequences (IGS) in the polymerase chain reaction (PCR) show that rDNA gene conversion has not gone to completion in N. tabacum. Furthermore, using methylation-insensitive restriction enzymes we demonstrate that about 8% of the rDNA units remain of the N. sylvestris type (from ca. 75% based on the sum of the rDNA copy numbers in the parents). Since the active genes are likely to be of an N. tomentosiformis type, the N. sylvestris type units are presumably contained within inactive loci (i.e. on chromosome S12). Nicotiana sylvestris has approximately three times as much rDNA as the other two species, resulting in much condensed rDNA at interphase. This species also has three classes of IGS, indicating gene conversion has not homogenised repeat length in this species. The results suggest that methylation and/or DNA condensation has reduced or prevented gene conversion from occurring at inactive genes at rDNA loci. Alternatively, active undermethylated units may be vulnerable to gene conversion, perhaps because they are decondensed and located in close proximity within the nucleolus at interphase. In TBY-2, restriction enzymes showed hybridisation patterns that were similar to, but different from, those of N. tabacum. In addition, TBY-2 has elevated rDNA copy number and variable numbers of rDNA loci, all indicating rDNA evolution in culture. Received: 17 November 1999; in revised form: 3 February 2000 / Accepted: 3 February 2000     

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.     

Asymmetric hybridization in Nicotiana by “gamma fusion” and progeny analysis of self-fertile hybrids

Summary Mesophyll protoplasts of the nitrate-reductase (NR)-deficient Nicotiana plumbaginifolia mutant, Nia26, were fused with -irradiated mesophyll protoplasts of Nicotiana sylvestris, V-42. Hybrid selection was based on complementation of NR deficiency by transfer of the donor NR gene to N. plumbaginifolia. Regenerated hybrids had different numbers of donor chromosomes in a tetraploid background of N. plumbaginifolia. The transfer and expression of different isozymes from the donor were also observed. Six self-fertile regenerants were obtained from 21 independently isolated cell colonies. Progeny analyses revealed: (1) the linkage of NR and shikimate dehydrogenase (ShDh); (2) a stabilization of the transmission rate of NR; and (3) the obtainment of mono- and disomic addition lines in the first and second progeny of the original regenerants. Southern hybridization analyses demonstrated unequivocally the presence of the NR gene from the donor partner in progeny plants.     

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.     

Transformed T0 orchardgrass (Dactylis glomerata L.) plants produced from highly regenerative tissues derived from mature seeds

A highly efficient and reproducible transformation system for orchardgrass (Dactylis glomerata L. cv. Rapido, 2n=42=28) was established using microprojectile bombardment of highly regenerative, green tissues derived from mature seeds. These tissues, induced from embryogenic callus, were bombarded with a mixture of three plasmids containing the hygromycin phosphotransferase (hpt), phosphinothricin acetyltransferase (bar) and #-glucuronidase (uidA; gus) genes. From 147 individual explants bombarded, 11 independent hygromycin-resistant lines (7.5%) were obtained after an 8- to 16-week selection period using 30-50 mg/l hygromycin B. Of the 11 independent lines, ten (91%) were regenerable. The presence and integration of the transgene(s) were assessed using PCR and DNA blot hybridization. Coexpression frequency of the three transgenes (hpt/bar/uidA) in T₀ plants was 20%, and of two transgenes, either hpt/bar or hpt/uidA, 45-60%. Due to greenhouse conditions optimized for the growth of other species, T₁ seed has not been obtained from these plants. While the inability to analyze progeny plants precludes the conclusive demonstration of stable transformation, the results of all molecular and biochemical analyses of T₀ plants are consistent with the production of stably transformed plants. Frequent change in ploidy level was observed in transformed T₀ orchardgrass plants. Plants from only three of the ten independent lines analyzed had the normal tetraploid number of chromosomes (2n=42=28), while plants from seven lines (70%) were octaploid (2n=82=56). The octaploid plants had abnormal morphological features, such as narrower, thicker and more upright leaves.     

Chromosome identification and comparative karyotypic analyses of four Pinus species

Chromosomal landmarks in four Pinus species: P. densiflora, P. thunbergii, P. sylvestris, and P. nigra were identified by fluorescence in situ hybridization (FISH) using hapten- or fluorochrome-labeled probes for the plant telomere repeat, centromeric repeat (PCSR), and rDNA. FISH landmarks were located at the interstitial and proximal regions of chromosomes and allowed us to identify nearly all of the homologous chromosomes in each species. A comparative analysis of the FISH karyotypes among the four species showed that the interstitial FISH signals obtained by hybridization with the telomere and rDNA sequences were stable and could be used to identify homologous chromosomes among species. The identification of homologous chromosomes among species facilitated a detailed comparative karyotype analysis. The results suggest that the degree of chromosomal differentiation among the four Pinus species is very low and that the proximal regions vary in their DNA sequences. The similarities and differences among FISH karyotypes are discussed in relation to phylogeny.     

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.     

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.     

An Examination of the Plastid DNA of Hypohaploid Nicotiana plumbaginifolia Plants

DNA was extracted from different morphological types of hypohaploid Nicotiana plumbaginifolia plants. The cellular levels of chloroplast DNA (expressed as percent of total DNA) were found to be approximately two- to threefold higher in two albino hypohaploids than in a green hypohaploid. The level of chloroplast DNA in the green hypohaploid was not significantly different from either in vitro or in vivo grown haploid N. plumbaginifolia plants. Molecular hybridization with DNA probes for the large subunit of ribulose bisphosphate carboxylase from spinach and with Pvull fragments representing the entire Nicotiana tabacum chloroplast genome revealed no gross qualitative differences in the chloroplast DNAs of hypohaploid plants. Based on these observations we have concluded that the lack of chloroplast function observed in the albino forms of hypohaploid N. plumbaginifolia plants is not due to changes in the chloroplast genome.     

Karyotype analysis of Nicotiana kawakamii Y. Ohashi using DAPI banding and rDNA FISH

Prometaphase cells were used to analyze the karyotype of Nicotiana kawakamii Y. Ohashi by means of sequential Giemsa/CMA/DAPI staining and multicolor fluorescence in situ hybridization with 5S and 18S rDNA. Observation of the DAPI-stained prometaphase spreads indicated that N. kawakamii had six pairs of large chromosomes, one pair of medium-sized chromosomes and five pairs of small chromosomes. The six pairs of large chromosomes possessed remarkable DAPI bands, and each could be identified from both the DAPI banding pattern and the length of the short arm. The DAPI banding pattern was approximately identical to the CMA and Giemsa banding patterns. Hybridization signals of the 18S rDNA probe were detected on two pairs of large chromosomes. In addition, two pairs of small chromosomes were identified based on the position of the 5S rDNA signals. An idiogram of N. kawakamii chromosomes was produced based on DAPI bands and rDNA loci. Received: 17 July 2000 / Accepted: 4 September 2000     

A bentazon and sulfonylurea sensitive mutant: breeding,genetics and potential application in seed production of hybrid rice

The use of a thermosensitive genic male sterility (TGMS) system in two-line hybrid rice breeding is affected greatly by the sterility instability of TGMS lines caused by temperature fluctuation beyond their critical temperatures for fertility reversion. To prevent seed production from self contamination, we have developed a system to secure seed purity using a herbicide-sensitive TGMS mutant, M8077S, obtained by radiation. Genetic analysis, using the F₁, F₂ and F₃ populations derived from this mutant and other normal varieties, revealed that bentazon lethality/sensitivity was controlled by a single recessive gene, which was named bel. The mutant can be killed at the seedling stage by bentazon at 300 mg/l or higher, a dosage that is safe for its F₁ hybrids and all other normal varieties. This mutant is also sensitive to all the tested sulfonylurea herbicides. Response of segregating plants to these two types of herbicide indicated that sulfonylurea sensitivity was also controlled by bel. By crossing this mutant with Pei-Ai 64S, an F₂ population was developed for genetic mapping. Surveying the two DNA pools from sensitive and non-sensitive F₂ plants identified four markers that were polymorphic between the pools. The putative linked markers were then confirmed with the F₂ population. The bel locus was located on chromosome 3, 7.1 cM from the closest microsatellite marker RM168. Phenotypic analysis indicated that the bel gene had no negative effect on agronomic traits in either a homozygous or heterozygous status. The mutant M8077S is valuable in the development of a TGMS breeding system for preventing impurity resulting from temperature fluctuation of the TGMS. Several two-line hybrid rice crosses using this system are under development.     

Species-specific evolution of telomeric and rDNA repeats in the tobacco composite genome

In order to investigate possible interactions between parental genomes in the composite genome of Nicotiana tabacum we have analyzed the organization of telomeric (TTTAGGG)_n and ribosomal gene (rDNA) repeats in the progenitor genomes Nicotiana sylvestris and Nicotiana tomentosiformis or Nicotiana otophora. Telomeric arrays in the Nicotiana species tested are heterogeneous in length ranging from 20 to 200 kb in N. sylvestris, from 20 to 50 kb in N. tomentosiformis, from 15 to 100kb in N. otophora, and from 40 to 160kb in N. tabacum. The patterns of rDNA repeats (18S, 5.8S, 25S RNA) appeared to be highly homogeneous and speciesspecific; no parental rDNA units corresponding to N. sylvestris, N. tomentosiformis or N. otophora were found in the genome of N. tabacum by Southern hybridization. The results provide evidence for a species-specific evolution of telomeric and ribosomal repeats in the tobacco composite genome.     

An improved method for protoplast micro-injection suitable for transfer of entire plant chromosomes

A simple protoplast culture system, combining optimal plating efficiency and the prerequisites for microinjection (immobilization, localization, optics) is described. Microinjection of lucifer yellow into protoplasts and protoplast-derived cells from Nicotiana plumbaginifolia cell suspensions was carried out to demonstrate the vitality of the procedure, the possibility to penetrate cell walls, and the occurrence of aberrant cell divisions early during protoplast regeneration at high frequency.Using specific adaptations of the equipment, transfer of particles was carried out: metaphase chromosomes isolated from a partially synchronized kanamycin-resistant suspension culture of N. plumbaginifolia were microinjected into recipient wild-type N. plumbaginifolia protoplasts. So far only visual evidence was achieved; genetic and molecular verification for chromosome-mediated gene transfer is in progress.     

Fusion-mediated transfer of triazine-resistant chloroplasts: Characterization of Nicotiana tabacum cybrid plants

Summary Terbutryn-resistant plastids of the Nicotiana plumbaginifolia TBR2 mutant were introduced into N. tabacum plants by protoplast fusion following X-irradiation of TBR2 protoplasts. The N. tabacum chloroplast recipient line, SR1-A15, carried mutant (albino) plastids. Following protoplast fusion, potential cybrid cell lines with an N. tabacum (SR1-A15) nucleus and N. plumbaginifolia (TBR2) chloroplasts were identified by their green color. The presence of TBR2 plastids in regenerated green N. tabacum plants was confirmed by hybridization with a chloroplast DNA probe and by the modified chloroplast fluorescence transients characteristic of the TBR2 mutant. Cybrid plants were resistant to high levels of atrazine (10 kg/ha). The protruding stigma and shorter than normal filaments of the cybrids resulted in male sterility. In the cybrids atrazine resistance was associated with reduced vigour, suggesting a causal relationship.     

FISH分析栽培高粱×拟高粱、甜高粱×拟高粱的染色体行为

采用荧光原位杂交技术对45S rDNA在栽培高粱×拟高粱、甜高粱×拟高粱F1的有丝分裂和减数分裂染色体进行定位研究。在有丝分裂中期染色体上2个杂种分别检测到2个杂交信号, 在减数分裂粗线期、终变期、中期Ⅰ染色体上45S rDNA位于一个二价体上, 说明这两个杂种携带45S rDNA的染色体为同源染色体。根据45S rDNA位点随细胞减数分裂过程的位置变化, 表明这两个杂种染色体配对行为正常, 平均构型为2n=2x=20(10Ⅱ), 证明45S rDNA可作为染色体的一个识别指标间接地观察细胞减数分裂过程染色体的变化行为。     

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.