Possible involvement of genes on the Q chromosome of <Emphasis Type="Italic">Nicotiana tabacum</Emphasis> in expression of hybrid lethality and programmed cell death during interspecific hybridization to <Emphasis Type="Italic">Nicotiana debneyi</Emphasis>

Hybrid seedlings from the cross between Nicotiana tabacum, an allotetraploid composed of S and T subgenomes, and N. debneyi die at the cotyledonary stage. This lethality involves programmed cell death (PCD). We carried out reciprocal crosses between the two progenitors of N. tabacum, N. sylvestris and N. tomentosiformis, and N. debneyi to reveal whether only the S subgenome in N. tabacum is related to hybrid lethality. Hybrid seedlings from reciprocal crosses between N. sylvestris and N. debneyi showed lethal characteristics identical to those from the cross between N. tabacum and N. debneyi. Conversely, hybrid seedlings from reciprocal crosses between N. tomentosiformis and N. debneyi were viable. Furthermore, hallmarks of PCD were observed in hybrid seedlings from the cross N. debneyi × N. sylvestris, but not in hybrid seedlings from the cross N. debneyi × N. tomentosiformis. We also carried out crosses between monosomic lines of N. tabacum lacking the Q chromosome and N. debneyi. Using Q-chromosome-specific DNA markers, hybrid seedlings were divided into two groups, hybrids possessing the Q chromosome and hybrids lacking the Q chromosome. Hybrids possessing the Q chromosome died with characteristics of PCD. However, hybrids lacking the Q chromosome were viable and PCD did not occur. From these results, we concluded that the Q chromosome belonging to the S subgenome of N. tabacum encodes gene(s) leading to hybrid lethality in the cross N. tabacum × N. debneyi.     

Variant mitochondrial protein and DNA patterns associated with cytoplasmic male-sterile lines of Nicotiana

Summary Variation in mitochondrial protein synthesis and genome organization was investigated. Three different alloplasmic cytoplasmic male-sterile Nicotiana tabacum cultivars, carrying N. repanda, N. suaveolens or N. debneyi cytoplasm, were analysed together with corresponding male-fertile parental and restored material. Although several differences were detected in the proteins synthesized by isolated mitochondria from the male-sterile and male-fertile plants, most of these were related to the origin of the mitochondria. However, a 23 kD protein was synthesized in the male-sterile cultivar carrying N. debneyi mitochondria, but not in other lines containing this cytoplasm. This protein was also present in the male-fertile parent containing N. tabacum mitochondria. Only the enhanced production of a 30 kD protein in the lines carrying mitochondria from N. repanda or N. debneyi was exclusively correlated with CMS. This protein was not present in any of the corresponding male-fertile parental and restored lines. Restriction enzyme analysis of mitochondrial DNA revealed a difference in abundance of a 5.6 kb XhoI fragment between lines containing N. debneyi mitochondria. No rearrangements of mitochondrial DNA was found between male-fertile and male-sterile lines carrying N. repanda or N. suaveolens cytoplasm. These results might indicate that CMS in alloplasmic Nicotiana cultivars is caused by alterations in the expression of mitochondrial genes, rather than by induced changes in the genome.     

Genetic and geographic polymorphism of cultivated tobaccos (Nicotiana tabacum) in Turkey

Nicotiana tabacum (2n = 48) is a natural amphidiploid and shows a distribution over a geographical area in eastern Anatolia. Random amplified polymorphic DNA (RAPD) technique was used to evaluate both genetic diversity among 21 primitive tobacco accessions comparing flue cure virginia genotype (FCV) and their geographical polymorphism as a source of genetic variations for breeding programs. Only 13 of all the 60 random primers used in RAPD showed polymorphism acceptable for characterization of these accessions. Totally 118 RAPD fragments were generated from 13 decamer primer and 64 of them were found polymorphic (54.2%). Mus and FCV showed the smallest genetic distance among accessions cultivated in the eastern Anatolia. These results shows that the RAPD assay is a powerful approach for identifying genetic and geographic polymorphism. This article was submitted by the authors in English.     

Isolation and characterization of Tnd-1, a retrotransposon marker linked to black root rot resistance in tobacco

 In Nicotiana debneyi, resistance to a wide range of black root rot (Chalara elegans) isolates is conferred by a single dominant gene. This gene has been transferred to cultivated tobacco (Nicotiana tabacum) and was recently discovered to be linked in coupling to a 1050-bp random amplified polymorphic DNA (RAPD) marker generated with the UBC 418 primer. We have cloned and sequenced the UBC418₁₀₅₀ marker and found it to be part of a retrotransposon. This retrotransposon is a remnant of the N. debneyi genome and is the first to be isolated from this species. Transposon N. debneyi (Tnd)-1 is present in the tobacco genome as two directly repeated copies, and in multiple copies in the donor species N. debneyi and in a number of related Nicotiana species. The retrotransposon appears to have been introduced into the Nicotiana genome after the development of the Suavolentes progenitors. The gene associated with black root rot resistance co-segregates with the retrotransposon in tobacco and is thought to be contained within the introgressed fragment marked by Tnd-1. The retrotransposon will therefore be a useful species-specific landmark that can be used for future cloning of the resistance gene. Received: 3 March 1998 / Accepted: 18 August 1998     

Fertile somatic hybrids between transgenicNicotiana tabacum and transgenicN. debneyi selected by dual-antibiotic resistance

Summary A simple, yet effective selection system was used to produce fertile somatic hybrids betweenNicotiana tabacum andN. debneyi. This approach utilized transgenic antibiotic-resistantN. tabacum andN. Debneyi as donor plants for mesophyll protoplast fusions. Thirteen somatic hybrid plants were regenerated from calli capable of growth on medium containing both antibiotics. The majority of the hybrids displayed a range of leaf and floral morphologies and growth habits that were intermediate to those of the parental species, and had chromosome numbers varying from amphidiploid (2n = 96) to hypoaneuploid (2n = 60). Isoenzyme and RFLP analysis demonstrated the presence and expression of nuclear genes from both parents in all of the hybrids. Most plants are fully fertile. Thus, these plants differ from the malesterile tobacco cybrids and alloplasmic lines produced by transferring theN. debneyi cytoplasm to tobacco. A nonrandom pattern of cytoplasmic segregation in the fusion products occurred with a bias towards the presence ofN. debneyi cp and mtDNA. Evidence for the presence of rearranged or recombinant cp and mtDNA in some of the hybrids was obtained. The somatic hybrids were successfully backcrossed to theN. tabacum parent and are now being tested for immunity to black root rot, a trait specific toN. debneyi, but not existent in theN. tabacum parental line.     

Development of user-friendly markers for disease resistance to black root rot of tobacco through genotyping by sequencing

Black root rot (BRR), a disease caused by the hemibiotrophic fungus Thielaviopsis basicola, seriously compromises yield and leaf quality in tobacco (Nicotiana tabacum). Full resistance to black root rot, conferred by the resistance to BRR 1 (RBRR1) locus from Nicotiana debneyi Domin, was transferred to a burley tobacco cultivar through interspecific hybridization. Some undesirable traits potentially caused by linkage drag restrict wider application of RBRR1 in flue-cured tobacco. Therefore, user-friendly molecular markers are needed to assist selection for resistance to black root rot and to break the unfavorable linkage. Genotyping by sequencing (GBS) is a rapid and robust approach for reduced representation sequencing of multiplexed genomic DNA samples that combines genome-wide molecular marker discovery with genotyping. In the present study, we used GBS to identify single-nucleotide polymorphisms (SNPs) linked to the RBRR1 locus, and PCR-based assays for detection of these SNPs were also developed. Sequence analysis of the SNP markers suggested that RBRR1 is located on chromosome 17, providing a basis for map-based cloning of this valuable gene. Co-dominant CAPS markers that co-segregate with the disease-resistant phenotype offer user-friendly tools for tobacco breeding and variety improvement. Furthermore, tested with diverse N. tabacum germplasm, SS192650 displayed 100% selection accuracy for resistance to BRR, suggesting that this marker can be used in diverse tobacco populations.     

Effects of the Nicotiana debneyi black root rot resistance factor on agronomic and chemical traits in burley tobacco

Summary Lines isogenic or near isogenic for traits other than resistance to black root rot from Nicotiana debneyi were developed in eight cultivar backgrounds of burley tobacco (N. tabacum L.). For each cultivar background, a resistant and susceptible selection from the seventh backcross generation plus the recurrent parental cultivar were evaluated for ten agronomic and chemical traits. Resistant selections were statistically different from the susceptible entries for days to flower, total nitrogen content, and total alkaloid content. Also, resistant selections were consistently lower in yield, but the differences were statistically nonsignificant. Resistant selections were also taller in three families and in two families the resistant selections had wider leaves. Linkage of genetic material from N. debneyi with the resistance factor was suggested as the possible reason for differences between resistant and susceptible selections.     

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     

Valine resistant plants derived from mutated haploid and diploid protoplasts of Nicotiana sylvestris and N. tabacum

Summary Protoplasts were derived from haploid and diploid Nicotiana sylvestris and N. tabacum. Exposure of the protoplasts to mutagenic doses of ultraviolet (U.V.) radiation prior to two selection rounds in the presence of 4 mM (or 5 mM) and 8 mM of valine, respectively, was required to obtain cell lines with persistent valine resistance. Such lines were obtained from haploid and diploid N. sylvestris protoplasts as well as from haploid protoplasts of N. tabacum but not from (1.8 × 10⁷) diploid N. tabacum protoplasts. The ratio between number of verified valine-resistant cell lines and the initial number of U.V. exposed protoplasts enabled the estimation of the following order of mutation frequency: haploid N. sylvestris > haploid N. tabacum > diploid N. sylvestris. Plants which retained the valine resistance and transmitted it to their sexual progeny were derived from the resistant cell lines.     

Marker assisted pea breeding: <Emphasis Type="Italic">eIF4E</Emphasis> allele specific markers to <Emphasis Type="Italic">pea seed-borne mosaic virus</Emphasis> (PSbMV) resistance

Traditional plant breeding relies upon crosses and subsequent selection of genotypes to meet desirable traits. The incorporation of marker-assisted selection into breeding strategies would result in a reduction in the number of offspring to be propagated, selected and tested. In the case of pea (Pisum sativum L.), the testing of resistance to viral pathogens such as pea seed-borne mosaic virus (PSbMV) is included in the breeding process. Resistance to the common strains of PSbMV is conferred by a single recessive gene (eIF4E), localized on LG VI (sbm-1 locus). We have analyzed for variation in the eIF4E genomic sequences from 43 pea varieties and breeding lines, reported as donors of resistance. This enabled a comprehensive investigation of the eIF4E gene structure and mutations responsible for PSbMV resistance were identified. Subsequently, PCR-based and gene-specific single nucleotide polymorphism and co-dominant amplicon length polymorphism markers were developed. All together 60 accessions were analyzed using sequence data and/or allele specific DNA markers. Developed allele specific markers were reproducibly amplified across a broad spectra of pea varieties and breeding lines. These were found to be 100% accurate in detecting the presence of the respective alleles when compared to symptomology and ELISA, testing (74% reliable). Hence, these molecular markers will substantially speed-up PSbMV diagnosis and resistance breeding processes in pea.     

Tomato resistance to Alternaria stem canker: localization in host genotypes and functional expression compared to non-host resistance

Summary The Alternaria stem canker resistance locus (Asc-locus), involved in resistance to the fungal pathogen Alternaria alternata f. sp. lycopersici and in insensitivity to host-specific toxins (AAL-toxins) produced by the pathogen, was genetically mapped on the tomato genome. Susceptibility and resistance were assayed by testing a segregating F₂ population for sensitivity to AAL-toxins in leaf bioassays. Linkage was observed to phenotypic markers solanifolium and sunny, both on chromosome 3. For the Asc-locus, a distance of 18 centiMorgan to solanifolium was calculated, corresponding to position 93 on chromosome 3. This map position of the resistance locus turned out to be the same in three different resistant tomato accessions, one Dutch and two American, that are at least 40 years apart. AAL-toxin sensitivity in susceptible and resistant tomato genotypes was compared with AAL-toxin sensitivity in a non-host Nicotiana tabacum during different levels of plant cell development. In susceptible and resistant tomato genotypes, inhibitory effects were demonstrated at all levels, except for leaves of resistant genotypes. However, during pollen and root development, inhibitory effects on susceptible genotypes were larger than on resistant genotypes. In the non-host Nicotiana tabacum, hardly any effects of AAL-toxins were demonstrated. Apparently, a cellular target site is present in tomato, but not in Nicotiana tabacum. It was concluded that three levels of AAL-toxin sensitivity exist: (1) a susceptible host sensitivity, (2) a resistant host sensitivity, (3) a non-host sensitivity, and that the resistance mechanism operating in tomato is different from that operating in Nicotiana tabacum.     

Transmission of paternal chloroplasts in tobacco (Nicotiana tabacum)

Medgyesy et al. (1986, Mol. Gen. Genet. 204, 195–198) have described in Nicotiana plumbaginifolia and in an interspecific cross involving N. plumbaginifolia and N. tabacum a procedure for selecting cell lines derived from seedlings carrying paternal chloroplasts by taking advantage of a plastid-encoded mutation which confers resistance to streptomycin. We have extended their demonstration of occasional transmission of chloroplasts through pollen to the case of an intraspecific cross in N. tabacum. The line used as maternal parent, ITB19(sua), displayed a cytoplasmic male sterility due to the presence of a cytoplasm originating from N. suaveolens. The line used as paternal parent, SR1, was fertile and possessed mutant chloroplasts conferring resistance to streptomycin. From cell lines derived from 204 seedlings, three were regenerated into streptomycin-resistant buds. The plants derived from these three clones were male-sterile. Their progeny, after crossing with a wild type tobacco line, XHFD8, was resistant to streptomycin. Tests of resistance of the seedlings to tentoxin and restriction analyses of the chloroplast DNA indicated that two clones still had the maternal chloroplasts and were thus probably new streptomycin-resistant mutants, whereas the third one had acquired the chloroplasts of the paternal parent, but had retained the mitochondria of the maternal parent.Abbreviations cp-DNA chloroplast DNA - mt-DNA mitochondrial DNA - Np Nicotiana plumbaginifolia - Nt Nicotiana tabacum     

Constitution of Mitochondrial and Chloroplast Genomes in Male Sterile Tobacco Obtained by Protoplast Fusion of Nicotiana tabacum and N. debneyi

Chloroplast DNA (cpDNA) and mitochondrial DNA (mtDNA) of malesterile tobacco plants obtained by fusion of Nicotiana tabacumprotoplasts and X-irradiated N. debneyi protoplasts were analyzed.Digestion of cpDNA isolated from ten male sterile lines withfour restriction endonucleases (EcoRI, XhoI, SmaI and HindIII)indicated that these lines possessed either one or the otherparental chloroplast genome. Neither mixture of two types ofcpDNA nor unique restriction fragments were detected in anyof the cases examined. The genetic constitution of chloroplastgenomes identified by restriction analysis of cpDNA showed goodagreement with that based on isoelectric focusing of the largesubunit of the Fraction I protein. The mtDNA from five fusion-derivedmale sterile plants showed banding patterns quite differentfrom each other and from the parental plants. Each plant exhibitednew restriction fragments not found in the parental species.These findings indicate that recombinational events in the mitochondrialgenomes take place rather frequently in the mixed cytoplasmsafter protoplast fusion, whereas the mixed chloroplasts becomesegregated to homogeneity. (Received June 19, 1987; Accepted October 5, 1987)     

Characterization of nuclear and cytoplasmic information in the progeny of a somatic hybrid between male sterile Nicotiana tabacum and N. glutinosa

Summary Several nuclear and cytoplasmic characters of the back-crossed progeny of a somatic hybrid between male sterile Nicotiana tabacum (N. debneyi cytoplasm) and N. glutinosa have been analysed. Progeny were obtained by repeated back-crossing of a somatic hybrid with pollen from either N. tabacum or N. glutinosa. Nuclear ribosomal RNA genes (rDNA) were found to be a reliable marker to determine the constitution of nuclear genomes in the progeny. The progeny obtained by back-crossing with N. tabacum pollen maintained uniformity in leaf morphology. On the other hand, variation in leaf morphology was observed in the second back-cross population obtained with N. glutinosa pollen. This may be due to a variable contribution of N. tabacum chromosomes. Segregation of rDNA was also found in individuals of the same back-crossed progeny, but was not related to the chromosome number. The stable inheritance of chloroplast DNA in the back-crossed generation was confirmed regardless of the type of pollen donor. Male sterility was consistently maintained throughout several generations, suggesting that the nuclear genome of either N. tabacum or N. glutinosa does not influence the expression of cytoplasmic male sterility.     

Morphological characteristics and chloroplast DNA distribution in different cytoplasmic parasexual hybrids of Nicotiana tabacum

Summary Protoplast fusion makes possible the fusion of two different cytoplasms, allowing genetical analysis of cytoplasmic factors. Two varieties of Nicotiana tabacum differing by their cytoplasms have been used. Techne, the first variety, obtained by an interspecific cross between N. debneyi (female) and N. tabacum (male) is characterized by the nuclear tabacum genome inside the debneyi cytoplasm. Techne plants present abnormal flowers with cytoplasmic male sterility (cytoplasmic marker) and sessile leave (nuclear marker). Techne leaf protoplasts were fused with leaf protoplasts of N. tabacum var. Samsun (or Xanthi). The last variety is characterized by petiolated leaves and normal flowers, because it possesses the nuclear tabacum genome associated with the tabacum cytoplasm. The nuclear marker (leaf shape) and the cytoplasmic one (flower shape inducing male sterility or fertility) have been used to distinguish among the whole regenerated plants the somatic nuclear hybrids and the cytoplasmic hybrids (cybrids) displaying the nuclear phenotype of one of the two parents associated with a modified flower type, intermediate between the parental ones.The chloroplastic (cp) DNA contained in each parent has been specifically identified by using EcoRI restriction nuclease and gel electrophoresis. EcoRI fragment patterns of cp DNA isolated from the first progeny of the regenerated cytoplasmic hybrids revealed that only one of the two parental cp DNAs is present in all cases; neither mixture of both parental cp DNAs nor recombinant cp DNA molecules were observed. This indicates that a specific elimination of one or the other parental cp DNAs occurs after the initial mixing of the cytoplasms. The study of the association of the modified flower type with the cp DNA isolated from the corresponding plant showed that cp DNA seems independent from the mechanism of cytoplasmic male sterility in tobacco.     

烟草大小孢子发生和雌雄配子体发育研究

采用卡宝品红染色压片和石蜡切片法对迪勃纳氏烟草(Nicotiana debneyi)大小孢子发生和雌雄配子体发育过程进行了研究.结果发现:(1)迪勃纳氏烟草为两性花,其小孢子发生和雄配子体发育早于大孢子.(2)迪勃纳氏烟草小孢子发生和发育过程基本正常,减数分裂过程有少数细胞出现滞后染色体、染色体断片和染色体桥等异常现象;其胞质分裂为同时型,四分体为十字交叉型和正四面体型,成熟的花粉粒为2细胞型.(3)迪勃纳氏烟草为2室子房,中轴胎座,倒生胚珠,胚珠多数,胚囊发育为蓼型,大孢子发生和发育过程未观察到异常现象.     

Subcellular location of lincomycin resistance in Nicotiana mutants

Summary Lincomycin-resistant Nicotiana plumbaginifolia plastid mutants were considered also to carry mitochondrial mutations on the basis of their ability to grow in the dark under selective conditions. To clarify the role of mitochondria, individual protoplasts of the green, lincomycin-resistant N. plumbaginifolia mutant LR400 were microfused with protoplasts of the N. tabacum plastid albino line 92V37, which possesses N. undulata cytoplasm. The production of lincomycin-resistant albino cybrid lines, with N. undulata plastids and recombinant mitochondria, strongly indicated a determining role for mitochondria in the lincomycin resistance. Sequence analysis of the region encompassing putative mutation sites in the 26S rRNA genes from the LR400 and several other lincomycin-resistant N. plumbaginifolia mutants revelaed, however, no differences from the wild-type sequence. As an alternative source of the resistance of the fusion products, the N. tabacum fusion partner was also taken into account. Surprisingly, a natural lincomycin resistance of tobacco was detected, which was inherited as a dominant nuclear trait. This result compromises the interpretation of the fusion data suggested above. Thus, to answer the original question definitively, the mutant LR400 was crossed as a female parent with a N. plumbaginifolia line carrying streptomycin-resistant N. tabacum plastids. Calli were then induced from the seedlings. Occasional paternal plastid transmissions were selected as streptomycin-resistant calli on selective medium. These cell lines were shown by restriction enzyme analysis to contain paternal plastids and maternal mitochondria. They were tested for greening and growing ability in the presence of lincomycin. These resistance traits proved to be genetically linked and exclusively located in the plastids.EMBL accession number X68710     

Somatic hybridization between male sterile Nicotiana tabacum and N. glutinosa through protoplast fusion

Summary Protoplasts derived from suspension cultured cells of cytoplasmic male sterile Nicotiana tabacum (N. debneyi cytoplasm) and of fertile N. glutinosa were fused with the aid of polyethylene glycol (PEG). Out of 1,089 colonies developed from PEG-treated protoplasts, 29 restored whole plants.A somatic hybrid plant was selected on the basis of isoelectrofocusing analysis of Fraction I protein in leaves of regenerated plants. A newly created hybrid contained small subunits of both parents but only a N. glutinosa type large subunit.Male sterile character was conserved in a hybrid plant while leaf morphology was intermediate between the parents. By tobacco mosaic virus infection tests, the hybrid's leaves showed resistant symptoms, hypersensitive local lesions, which were due to N. glutinosa nuclear genome expression.Abbreviations PEG Polyethylene glycol - TMV Tobacco mosaic virus     

Improved expression of streptomycin resistance in plants due to a deletion in the streptomycin phosphotransferase coding sequence

Summary Previous studies have shown that a chimeric streptomycin phosphotransferase (SPT) gene can function as a dominant marker for plant cell transformation. The SPT marker previously described by Jones and co-workers has a limited value since it conferred a useful level of resistance only to a fraction (10%) of Nicotiana plumbaginifolia transgenic lines. Expression of resistance was species specific: no such resistant transformants were found in N. tabacum. In this paper we describe an improved SPT construct that utilizes a mutant Tn5 SPT gene. The mutant gene, SPT ^*, encodes a protein with a two amino acid deletion close to its COOH-terminus. In N. tabacum cell culture the efficiency of transformation with the improved streptomycin resistance marker was comparable to kanamycin resistance. When the chimeric SPT ^* gene was introduced linked to a kanamycin resistance gene, streptomycin resistance was expressed in most of the transgenic N. tabacum lines.     

Comparison of the mitochondrial genome of Nicotiana tabacum with its progenitor species

Summary Mitochondrial DNAs from Nicotiana tabacum, an amphiploid, and its putative progenitor species, N. sylvestris and N. tomentosiformis were compared in structure and organization. By using DNA transfer techniques and cloned fragments of known genes from maize and N. sylvestris as labeled probes, the positions of homologous sequences in restriction digests of the Nicotiana species were analyzed. Results indicate that the mitochondrial DNA of N. tabacum was inherited from N. sylvestris. Conservation in organization and sequence homology between mtDNAs of N. tabacum and the maternal progenitor, N. sylvestris, provide evidence that the mitochondrial genome in these species is evolutionarily stable. Approximately one-third of the probed restriction fragments of N. tomentosiformis mtDNA showed conservation of position with the other two species. Pattern variations indicate that extensive rearrangement of mtDNA has occurred in the evolution of these Nicotiana species.