A new middle repetitive sequence of Nicotiana plumbaginifolia genome

A middle repetitive sequence NPR18 was isolated from Nicotiana plumbaginifolia nuclear genome [8]. Sequences homologous to the repeat are dispersed through genomes of several Nicotiana species. compute-assisted data analysis of NPR18 primary sequence reveals several features attributed to mobile genetic elements: an AT content higher than average for nuclear DNA of genus Nicotiana plants; a number of direct and inverted repeats. Some of the repeats displayed homology to the terminal and subterminal repeats of Ac/Ds-like plant elements.     

Fusion of plant protoplasts: a study using auxotrophic mutants of Nicotiana plumbaginifolia,Viviani

Summary Protoplast fusion studies between various auxotrophic mutants of Nicotiana plumbaginifolia were performed to optimize conditions for PEG-mediated fusion and to identify factors influencing the plant protoplast fusion process. Numerous parameters in the isolation, culture, and fusion of protoplasts were tested, and established fusion protocols were compared. Fusion rates, calculated on the basis of colony growth on selection medium (genetic complementation), ranged from 10^–4 to 10^–2. Conditions that allow rapid and reproducible fusions at the highest rates were established. Particular emphasis was given to fusion of mesophyll-derived protoplasts, for which the ability to regenerate fertile plants from fusion products was shown to be particularly high. Preliminary experiments using electric-field mediated fusion suggest that electrofusion may offer significant advantages over the traditional chemical fusion.     

Effect of repeated DNA sequences on direct gene transfer in protoplasts of Nicotiana plumbaginifolia

Summary Highly repeated nuclear DNA sequences from leaves of Nicotiana plumbaginifolia were cloned in pBR322 and tested for their effect on direct gene transfer in protoplasts of the same organism. Protoplasts were prepared from suspension cultures and were incubated in the presence of the plasmid pHP23 carrying the kanamycin resistance gene APH(3)II and in the presence of the plasmids carrying the cloned sequence. DNA uptake was induced by a polyethyleneglycol (PEG) treatment. Out of the 22 tested clones, 3 significantly stimulated the frequency of appearance of transformed colonies. DNA was extracted from some of the kanamycin-resistant calli obtained by co-transformations. Dot-blots have shown that the stimulatory effect on transformation frequency is often accompanied by a consistent increase in integrated genes sequences.     

Nuclear behaviour of colonies and regenerated buds from protoplasts ofNicotiana plumbaginifolia Viviani haploids

The ploidy level variations of protoplast cultures ofNicotiana plumbaginifolla Viviani (n=10) were investigated from protoplast isolation until regenerated buds, using cytophotometric measurements of nuclear DNA content and chromosome counting. An increase in the average nuclear DNA amount has been found to occur in freshly isolated protoplasts after 15 hours of maceration. Cytological abnormalities like nuclear fragmentation, chromatin connections between interphasic nuclei and micronuclei were observed during the following days. Chromosome counting in 15, 30 and 50-day-old calli and in regenerated buds revealed that nuclei are haploid, diploid or aneuploid.Abbreviations p-cells, p-calli or p-colonies protoplast-derived cells, calli or colonies - BAP 6-benzylaminopurine - NAA 1-naphtaleneacetic acid - 2iP ²-isopentyl-aednine     

The distribution and divergence during evolution of families of repetitive DNA sequences inLathyrus species

Summary Evolution and divergence among, species within the genusLathyrus have involved an approximately fivefold increase in the amounts of nuclear DNA. Most species inLathyrus are diploids with the same chromosome number, 2n=14. Significant changes in the amounts of repetitive sequences have accounted for much of the evolutionary DNA variation between species. Seven diploidLathyrus species with a twofold variation in nuclear DNA amounts between them were investigated. Using higher derivative analysis of the thermal denaturation profiles of the reassociated repetitive DNA, the reiteration frequency and divergence of repetitive families were compared. Much variation in the reiteration frequency was observed within and between species. In species with larger 2C DNA amounts repetitive families had on average greater amounts of DNA. Despite the massive differences in DNA amounts, six species were consistently similar in the number of repetitive families in their genomes, and they showed a similar pattern in base sequence divergence. In terms of base sequence relationships the repetitive families appeared to be heterogeneous. The evolutionary significance is discussed.     

Characterization and regeneration of salt- and water-stress mutants from protoplast culture of Nicotiana plumbaginifolia (Viviani)

Summary Protoplast-derived colonies of haploid N. plumbaginifolia leaves were used to select for resistance to NaCl, KCl and polyethylene glycol 6000 (PEG). Salt-and PEG-tolerant cell lines were isolated on the basis of growth in a culture medium containing inhibitory concentrations of either NaCl or KCl (200 mM) or PEG (25%). The frequency of resistant lines ranged from 10^-5 to 10^-6. One resistant line from each treatment was regenerated into plants. All resistant lines produced 10–25 times more proline than the wild type when grown on a non-selective medium. Similar values were also observed in the leaves of resistant progeny plants. In each mutant line, salt or PEG resistance was transmitted as a single dominant nuclear gene as shown by segregation ratios in progenies of crosses between resistant and wild-type plants. The latter observation demonstrates clearly the existence of a genetic basis for increased salt tolerance.     

Isolation and characterization of valine-resistant mutants of Nicotiana plumbaginifolia

Summary Haploid mesophyll protoplasts of Nicotiana plumbaginifolia were mutagenized by UV-irradiation. Protoplast-derived colonies were then selected for valine resistance on a medium containing 5 or 10 mM valine. From the resistant calli, plants were regenerated. Resistance was inherited as a recessive Mendelian character in seven clones. Mutations conferring valine resistance were shown to be allelic. Protoplast-derived cells of L-valine-resistant plants were also resistant to L-threonine. Resistance to valine was based on a reduced valine uptake rate.     

A point mutation in the chloroplast rps12 gene from Nicotiana plumbaginifolia confers streptomycin resistance

In an effort to understand the mechanism of streptomycin resistance in Nicotiana plumbaginifolia, we have sequenced the chloroplast rps12 gene, a potential molecular target. We report that a streptomycin-resistant mutant isolated from protoplast cultures of N. plumbaginifolia contains an A-to-G transition at nucleotide position 149 in exon 2 of the chloroplast rps12 gene. The detected point mutation predicts a substitution of arginine for lysine in a phylogenetically conserved region.     

Comparative genomics and repetitive sequence divergence in the species of diploid Nicotiana section Alatae

Combining phylogenetic reconstructions of species relationships with comparative genomic approaches is a powerful way to decipher evolutionary events associated with genome divergence. Here, we reconstruct the history of karyotype and tandem repeat evolution in species of diploid Nicotiana section Alatae. By analysis of plastid DNA, we resolved two clades with high bootstrap support, one containing N. alata, N. langsdorffii, N. forgetiana and N. bonariensis (called the n = 9 group) and another containing N. plumbaginifolia and N. longiflora (called the n = 10 group). Despite little plastid DNA sequence divergence, we observed, via fluorescent in situ hybridization, substantial chromosomal repatterning, including altered chromosome numbers, structure and distribution of repeats. Effort was focussed on 35S and 5S nuclear ribosomal DNA (rDNA) and the HRS60 satellite family of tandem repeats comprising the elements HRS60, NP3R and NP4R. We compared divergence of these repeats in diploids and polyploids of Nicotiana. There are dramatic shifts in the distribution of the satellite repeats and complete replacement of intergenic spacers (IGSs) of 35S rDNA associated with divergence of the species in section Alatae. We suggest that sequence homogenization has replaced HRS60 family repeats at sub-telomeric regions, but that this process may not occur, or occurs more slowly, when the repeats are found at intercalary locations. Sequence homogenization acts more rapidly (at least two orders of magnitude) on 35S rDNA than 5S rDNA and sub-telomeric satellite sequences. This rapid rate of divergence is analogous to that found in polyploid species, and is therefore, in plants, not only associated with polyploidy.     

Isolation and characterization of streptomycin-resistant mutants in Nicotiana plumbaginifolia

Summary Streptomycin-resistant colonies were isolated from protoplast cultures of haploid Nicotiana plumbaginifolia based on their ability to green in medium containing 1 mg/ml streptomycin sulfate. The frequency of resistant colonies was 0.9×10^–5 in nonmutagenized culture, and increased ten-fold following treatment of culture with 10 g/ml N-methyl-N-nitro-N-nitrosoguanidine. Of a total of 52 resistant clones isolated, 2 gave rise to haploid, 15 to diploid, and 3 to tetraploid plants upon transfer of calli to differentiation medium. Leaf-segment and protoplast assays showed that all diploid regenerates were resistant to streptomycin but sensitive to chloramphenicol, kanamycin, lincomycin, neomycin, and spectinomycin. Plants in most diploid clones were fertile and able to set seeds when self-fertilized and crossed reciprocally to wild-type plants. Inheritance of streptomycin resistance was studied in the diploid clones and, without exception, the resistance was transmitted maternally. Comparative studies of the ultrastructure of organelles and protein synthesis in isolated chloroplasts between wild-type and resistant clones in the presence of streptomycin suggest that streptomycin resistance is controlled by chloroplasts.     

Improved in vitro selection of nitrate reductase-deficient mutants of Nicotiana plumbaginifolia

Summary The use of increasing knowledge on regulation of nitrate reductase activity in Nicotiana cell cultures is the basis for the described optimization of in vitro selection for nitrate reductase-deficient mutants by screening for chlorate resistance. Selection was carried out on haploid mesophyll protoplast-derived cell cultures of Nicotiana plumbaginifolia. It is demonstrated that revised selection results in high variant detectability and increased variant confirmability in comparison with the hitherto used selection scheme.     

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.     

Reduced intracellular content of methotrexate in an isolated MTX-resistant cell line of Nicotiana plumbaginifolia

Summary In plant cells methotrexate (MTX) may exert its toxic effect through several mechanisms, including inhibition of its target protein dihydrofolate reductase. Resistance based on a mechanism operating before MTX binds to proteins should confer protection to plant cells. A methotrexate-resistant cell line of Nicotiana plumbaginifolia was isolated by a stepwise selection procedure. This cell line survived in the presence of 10 M MTX which is 50–100 fold higher than the lethal dose for the wild type cells. Neither alteration in kinetic characteristics of dihydrofolate reductase, nor elevated binding capacity of ³H-MTX to target protein(s), were observed. However, in comparison with wild type cells, markedly lower amounts of intracellular ³H-MTX were found after the selected cell line was incubated with ³H-MTX, indicating that either reduced uptake or enhanced efflux of MTX is the major reason for MTX-resistance in this cell line.     

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.     

Ethanol-resistant mutants of Nicotiana plumbaginifolia are deficient in the expression of pollen and seed alcohol dehydrogenase activity

Summary Six independent mutant lines ofNicotiana plumbaginifolia resistant to ethanol, designated E3, E8, E101, E112, E144 and E251, were isolated as germinating seedlings on selective medium. In all cases, resistance to ethanol was conferred by a single recessive nuclear mutation at the same locus. Mutant seeds and pollen lacked detectable ADH activity, with the exception of E251 where a residual activity was detected. An antiserum directed againstArabidopsis thaliana ADH detected an ADH-related polypeptide of 44 kDa present in wild-type seeds and, to a lesser extent, in the seeds of the leaky mutant E251. No ADH-related polypeptide could be detected in seeds of the other mutants. However, all of them had a nearly normal level of ADH mRNA except one which did not synthesize any mRNA. These results suggest that these ethanol-resistant mutants are impaired in one of the structural genes coding for alcohol dehydrogenase. The corresponding locus has been designatedAdh1.Abbreviations ADH alcohol dehydrogenase - EMS ethyl methane-sulfonate - MTT dimethyl thiazol tetrazolium - NAD nicotinamide adenine dinucleotide - NBT nitro blue tetrazolium - p-cells protoplast-derived cells - PMS phenazine methosulfate - SDS sodium dodecyl sulfate     

Isolation and characterization of Nicotiana plumbaginifolia nitrate reductase-deficient mutants: genetic and biochemical analysis of the NIA complementation group

Summary Two hundred and eleven nitrate reductase-deficient mutants (NR^–) were isolated from mutagenized Nicotiana plumbaginifolia protoplast cultures by chlorate selection and regenerated into plant. More than 40% of these clones were classified as cnx and presumed to be affected in the biosynthesis of the molybdenum cofactor, the remaining clones being classified as nia mutants. A genetic analysis of the regenerated plants confirmed this proportion of nia and cnx clones. All mutants regenerated were found to carry monogenic recessive mutations that impaired growth on nitrate as sole nitrogen source. Mutants propagated by grafting on N. tabacum systematically displayed a chlorotic leaf phenotype. This chlorosis was therefore related to the NR deficiency. The observation of leaves with NR^– chlorotic sectors surrounded by NR⁺ wild-type tissues suggeests that an NR deficiency is not corrected by diffusible factors. Periclinal chimeras between wild-type tobacco and the NR^– graft were also observed. In this type of chimeric tissue chlorosis was no longer detectable when NR⁺ cells were in the secondmost (L2) layer, but was still detectable when NR^– cells were in the secondmost layer. The genetic analysis of nia mutants revealed that they belong to a single complementation group. However three nia mutants were found to complement some of the other nia mutants. The apoenzyme of nitrate reductase was immunologically detected in several nia mutants but not in other members of this complementation group. Some of the nia mutants, although they were NR^–, still displayed methylviologenitrate reductase activity at a high level. These data show that the nia complementation group corresponds to the structural gene of nitrate reductase. Some of the mutations affecting this structural gene result in the overproduction of an inactive nitrate reductase, suggesting a feedback regulation of the level of the apoenzyme in the wild type.     

Identification and expression analyses of two genes encoding putative low-affinity nitrate transporters from Nicotiana plumbaginifolia

Higher plants have both high- and low-affinity nitrate uptake systems (HATS and LATS respectively). Here we report the isolation and characterization of two genes, NpNRT1.1 and NpNRT1.2, from Nicotiana plumbaginifolia whose structural features suggest that they both belong to the NRT1 gene family, which is involved in the LATS. Amino acid sequence alignment showed that the N. plumbaginifolia proteins have greater similarity to their corresponding tomato homologues than to each other. Genomic Southern blot analysis indicates that there are probably more than two members of this family in N. plumbaginifolia. Northern blot analysis shows that NpNRT1.2 expression is restricted strictly to roots, whereas NpNRT1.1, in addition to roots, is expressed at a basal level in all other plant organs. Likewise, differential expression in response to external treatments with various N sources was observed for these two genes: NpNRT1.1 can be considered as a constitutively expressed gene whereas NpNRT1.2 expression is dependent strictly on high nitrate concentrations. Finally, over-expression of a gene involved in the HATS does not lead to any modification of LATS gene expression.     

Characterization of three hormone mutants of Nicotiana plumbaginifolia: evidence for a common ABA deficiency

Summary Various auxin-resistant Nicotiana plumbaginifolia mutants have already been isolated, including 1217 which shows cross-resistance to paclobutrazol. Recently, a cytokinin-resistant mutant, CKR1, has been characterized and has been shown to be affected in abscisic acid (ABA) biosynthesis. We have isolated a new mutant, Esg152, which was selected on the basis of its early germination. In each of these mutants, resistance is due to a recessive nuclear mutation at a single locus. Complementation analysis indicated that mutants I217, CKR1 and Esg152 belong to the same complementation group. They have a similar phenotype, which includes a reduction in seed dormancy and an increased tendency to wilt. These mutants display an increased auxin tolerance and enhanced root formation when leaf or hypocotyl sections are cultivated on auxin. By immunoenzymatic methods, we show that the endogenous levels of ABA are significantly lower than in the wild-type. We have assigned the symbol aba1 to the recessive alleles of the locus affected in the three mutants. The complexity of hormonal interactions is discussed briefly emerging from a consideration of this class of mutants.     

Differential abundance of simple repetitive sequences in species ofBrassica and relatedBrassicaceae

SixBrassica species, known as the triangle of U, and four species from related genera were characterized by DNA fingerprinting with simple repetitive oligonucleotide probes. Our results show that CT-, TCC-, and GTG-repeat motifs are equally abundant in the genomes of the sixBrassica species. In contrast, GATA-, GGAT-, and GACA-multimers are unevenly distributed among different species. As judged from the number and strength of hybridization signals, the highest copy number of all three motifs occurs inBrassica nigra, while the lowest is observed inB. oleracea. The abundance of GATA-and GACA-repeats varies in a coordinate way. The amphidiploid genomes ofB. juncea, B. carinata, andB. napus each harbour intermediate amounts of (GATA)₄ and (GACA)₄-detected repeats as compared to their diploid progenitors, thus supporting the concept of the U triangle. GATA-, GACA-, and GGAT-repeats were also abundant inEruca sativa andSinapis arvensis, but not inRaphanus sativus andSinapis alba. These results support the idea thatBrassica nigra is more closely related toSinapis arvensis than to otherBrassica species such asB. rapa andB. oleracea.