Expression of nuclear and chloroplastic genes coding for fraction-1 protein in somatic hybrids of Nicotiana tabacum + rustica

In the sexual interspecific cross, Nicotiana rustica L.xN. tabacum L., N. rustica can serve as the female but not as the male parent. By fusion of protoplasts, the barrier to fertilization was overcome and somatic hybrids containing N. tabacum cytoplasm were produced as shown by isoelectric focusing of the Fraction-1 protein (F-1-protein). All somatic hybrids displayed polypeptides of the large subunit of F-1 protein (which is coded by the chloroplast genome) characteristic of only one or the other parental species. Two hybrids had large subunits of the N. tabacum type and two hybrids had those of the N. rustica type. Three hybrids contained three smallsubunit polypeptides (coded by the nuclear genome), one being characteristic of N. rustica, one characteristic of N. tabacum, and one with an isoelectric point common to both species. A fourth hybrid contained only two small-subunit polypeptides of the N. tabacum type but in a F-1 protein macromolecule whose large subunits were of the N. rustica type. One somatic hybrid was self-fertile and its F₂ progeny contained large- and small-subunit polypeptides indistinguishable in their isoelectric points from those in the parent F₁ hybrid. All somatic hybrids showed an aneuploid chromosome number and morphological characteristics intermediate between those of N. rustica and N. tabacum.     

Evolution of fraction 1 protein in the genus Lycopersicon

The large- and small-subunit polypeptide composition of fraction 1 protein contained in seven species of Lycopersicon and Solanum pennellii was determined by electrofocusing. The eight species of protein had large subunits composed of three polypeptides separated by about 0.05 pH unit, but there was no difference in the isoelectric points of the clusters of three polypeptides. By this criterion, no surviving mutations have appeared in the extranuclear DNA coding for the cluster of large-subunit polypeptides during a period of evolution which generated the eight species of plants. The genus Lycopersicon appears to be much younger than its sister genus Nicotiana in the family Solanaceae, where four types of polypeptide clusters have evolved. Three different small-subunit polypeptides whose isoelectric points are coded by nuclear DNA have arisen among the seven Lycopersicon species, and L. hirsutum and S. pennellii have proteins containing single polypeptides and are therefore considered older than L. chilense, L. chimielewskii, and L. parviflorum, whose proteins contain two polypeptides. L. cheesemanii, L. pimpinellifolium, and L. esculentum (and probably L. peruvianum) seem to be the most recently evolved species since their fraction 1 proteins have small subunits composed of three polypeptides.This research was supported by NSF Grant 75-07368 and Contract No. EY-76-S-03-0034, P. A. #8, from the Department of Energy.     

The coding site of chloroplast ferredoxin

Ferredoxins were isolated and purified from leaves of different species of Nicotiana and Petunia and from spinach leaves. Their spectral properties, degree of homogeneity, and molecular weights were determined. The preparations were further analyzed by polyacrylamide gel electrophoresis of tryptic hydrolysates. This allowed us to distinguish between not only ferredoxins of Nicotiana, Petunia, and spinach, but even ferredoxins of various Nicotiana species. We used the differences in tryptic peptide compositions as phenotypic markers to study the mode of inheritance of chloroplast ferredoxin to see whether the coding site is in the chloroplast or in the nucleus. Analysis of the tryptic peptide composition of ferredoxin from different interspecific hybrids of Nicotiana showed that the characteristics of both parental ferredoxins were present. The results indicate that the primary structure of at least the male ferredoxin is coded for in the nucleus. In some of the hybrids the relative contribution of the male parent appeared to be low, suggesting that the female genome (presumably that part located in the plastome) exerted a dominating influence.     

Protential use of PCR-amplified ribosomal intergenic sequences for differentiation of varieties and species ofGossypium cotton

Our purpose was to develop a new approach to the identification ofGossypium cotton varieties and species based on polymerase chain reaction (PCR). Species-specific distinctions within the genusGossypium have been detected by the amplification of ribosomal genes, namely theRrn18-Rrn25 internal transcribed spacer (ITS) regions that had sequence differences. Using the primers to the 3′-end ofRrn18 adjacent to ITS1 and the 5′-end ofRrn25 adjacent to ITS2 from tomato, we have obtained amplified fragments of two cotton species,G. barbadense andG. herbaceum. Interspecies distinctions have been revealed by the restriction assay of these amplification products. The restriction patterns are distinguished not only by number but by location and intensity of the bands. Our results illustrate the effective use of differences in ribosomal intergenic sequences for the differentiation of varieties and species ofGossypium.     

Ebb and flow of the chloroplast inverted repeat

The endpoints of the large inverted repeat (IR) of chloroplast DNA in flowering plants differ by small amounts between species. To quantify the extent of this movement and define a possible mechanism for IR expansion, DNA sequences across the IR—large single-copy (IR-LSC) junctions were compared among 13Nicotiana species and other dicots. In mostNicotiana species the IR terminates just upstream of, or somewhere within, the 5 portion of therps19 gene. The truncated copy of this gene,rps19, varies in length even between closely related species but is of constant size within a single species. InNicotiana, six differentrps19 structures were found. A phylogenetic tree ofNicotiana species based on restriction site data shows that the IR has both expanded and contracted during the evolution of this genus. Gene conversion is proposed to account for these small and apparently random IR expansions. A large IR expansion of over 12 kb has occurred inNicotiana acuminata. The new IR-LSC junction in this species lies within intron 1 of theclpP gene. This rearrangement occurred via a double-strand DNA break and recombination between poly (A) tracts inclpP intron 1 and upstream ofrps19. Nicotiana acuminata chloroplast DNA contains a molecular fossil of the IR-LSC junction that existed prior to this dramatic rearrangement.     

Resurrection of an ancestral gene: functional and evolutionary analyses of the Ng<Emphasis Type="Italic">rol</Emphasis> genes transferred from<Emphasis Type="Italic"> Agrobacterium</Emphasis> to<Emphasis Type="Italic"> Nicotiana</Emphasis>

The Ngrol genes, which have high similarity in sequence to the rol genes of Agrobacterium rhizogenes, are present in the genome of untransformed plants of Nicotiana glauca. It is thought that bacterial infection resulted in the transfer of the Ngrol genes to plants early in the evolution of the genus Nicotiana, since several species in this genus contain rol-like sequences but others do not. Plants transformed with the bacterial rol genes exhibit various developmental and morphological changes. The presence of rol-like sequences in plant genomes is therefore thought to have contributed to the evolution of Nicotiana species. This paper focuses on studies of the Ngrol genes in present-day plants and during the evolution of the genus Nicotiana. The functional sequences of several Ngrol genes may have been conserved after their ancient introduction from a bacterium to the plant. Resurrection of an ancestral function of one of the Ngrol genes, as examined by physiological and evolutionary analyses, is also described. The origin of the Ngrol genes is then considered, based on results of molecular phylogenetic analyses. The effects of the horizontal transfer of the Ngrol genes and mutations in the genes are discussed on the plants of the genus Nicotiana during evolution.Seishiro Aoki is the recipient of the Botanical Society Award for Young Scientist, 2002.     

Assembly of an antibody and its derived antibody fragment inNicotiana andArabidopsis

The yield and assembly of an IgG1 antibody and its derived F_ab fragment were compared inNicotiana andArabidopsis. The results obtained showed a lot of interclonal variability. For 45% of the primary transgenic calluses, antigen-binding entities represented less than 0.1% of the total soluble protein (TSP). Only two of the 103 analysed transformants contained more than 1% of antigen-binding protein, with 1.26% being the highest yield. Analogous amounts of complete antibody and F_ab accumulated in primary callus tissue. Moreover, yields were in the same range for both species as far as primary callus tissue is concerned. However, the accumulation of the F_ab fragment in leaf tissue of regenerated plants differed significantly betweenNicotiana andArabidopsis. The F_ab fragment accumulated to only 0.044% of TSP inNicotiana leaves but up to 1.3% inArabidopsis leaves. Furthermore, both species showed differences in the assembly pattern of the complete antibody. WhereasArabidopsis contained primarily fully assembled antibodies of 150 kDa,Nicotiana showed an abundance of fragments in the 50 kDa range.     

Electrophoretic and immunological comparisons of chloroplast and prokaryotic ribosomal proteins reveal that certain families of large subunit proteins are evolutionarily conserved

Summary Antibodies to individual chloroplast ribosomal (r-)proteins ofChlamydomonas reinhardtii synthesized in either the chloroplast or the cytoplasm were used to examine the relatedness ofChlamydomonas r-proteins to r-proteins from the spinach (Spinacia oleracea) chloroplast,Escherichia coli, and the cyanobacteriumAnabaena 7120. In addition,³⁵S-labeled chloroplast r-proteins from large and small subunits ofC. reinhardtii were coelectrophoresed on 2-D gels with unlabeled r-proteins from similar subunits of spinach chloroplasts,E. coli, andAnabaena to compare their size and net charge. Comigrating protein pairs were not always immunologically related, whereas immunologically related r-protein pairs often did not comigrate but differed only slightly in charge and molecular weight. In constrast, when³⁵S-labeled chloroplast r-proteins from large and small subunits of a closely related speciesC. smithii were coelectrophoresed with unlabeledC. reinhardtii chloroplast r-proteins, only one pair of proteins from each subunit showed a net displacement in mobility.Analysis of immunoblots of one-dimensional SDS and two-dimensional urea/SDS gels of large and small subunit r-proteins from these species revealed more antigenic conservation among the four species of large subunit r-proteins than small subunit r-proteins.Anabaena r-proteins showed the greatest immunological similarity toC. reinhardtii chloroplast r-proteins. In general, antisera made against chloroplast-synthesized r-proteins inC. reinhardtii showed much higher levels of cross-reactivity with r-proteins fromAnabaena, spinach, andE. coli than did antisera to cytoplasmically synthesized r-proteins. All spinach r-proteins that cross-reacted with antisera to chloroplast-synthesized r-proteins ofC. reinhardtii are known to be made in the chloroplast (Dorne et al. 1984b). FourE. coli r-proteins encoded by the S10 operon (L2, S3, L16, and L23) were found to be conserved immunologically among the four species. Two of the large subunit r-proteins, L2 and L16, are essential for peptidyltransferase activity. The third (L23) and two otherE. coli large subunit r-proteins (L5 and L27) that have immunological equivalents among the four species are functionally related to but not essential for peptidyltransferase activity.     

Ultrastructure of the motile cells of the prostrate filamentous green algaeProtoderma sarcinoidea andChamaetrichon capsulatum

The biflagellate zoospores ofProtoderma sarcinoidea and the quadriflagellate zoospores ofChamaetrichon capsulatum are each covered by an amorphous, mucous material and a single layer of square scales, and the pyrenoid matrix is traversed by one or more thylakoid membranes. In the flagellar apparatus the basal bodies ofP. sarcinoidea and the upper basal bodies ofC. capsulatum are displaced in the counterclockwise absolute orientation, while the lower basal bodies ofC. capsulatum are directly opposed. Other components of the flagellar apparatus observed in each alga include: cruciately arranged d and s rootlets, each associated with an electron-dense component; simple terminal caps comprised of large and small subunits; a terminal electron-dense mass located near the proximal end of each basal body inP. sarcinoidea and near the upper basal bodies inC. capsulatum; and two rhizoplasts. Components specific to one or the other species include a single accessory basal body inP. sarcinoidea and a fibrous, electron-opaque band that links the upper and the lower basal bodies inC. capsulatum. The flagellar apparatus architecture ofP. sarcinoidea resemblesGayralia oxysperma, while that ofC. capsulatum is similar toTrichosarcina polymorphum andUlothrix species, all of which are included in theUlothrix-group,Ulotrichales, Ulvophyceae.     

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.     

ABam HI family of tobacco highly repeated DNA:

ABamHI family of highly repeated DNA sequences of theNicotiana tabacum nuclear genome, denoted as a HRS60-family, was recently isolated. It comprises about 2% of the tobacco nuclear genome. Monomeric units are 182–184 bp long. Members of the HRS60-family isolated till now are closely related. DNA-DNA hybridization experiments with DNA of the two tobacco progenitors,N. tomentosiformis andN. sylvestris, revealed that the HRS60-family was present in many copies inN. sylvestris, the amount being about 1.7 times that inN. tabacum. InN. tomentosiformis as well as in some other species of the genusNicotiana, the HRS60-family is present in a small amount. Sequences related to the HRS60-family were revealed using DNA-DNA hybridization at low stringency. With respect to quantity, the HRS60-family could be considered as a species-specific DNA repeat which may be a useful genetic marker in genetic manipulations withN. tabacum.     

Synthesis of ribulose 1,5-bisphosphate carboxylase by isolatedSorghum mesophyll chloroplasts

Chloroplasts isolated fromSorghum vulgare are active in light-dependent, organelle protein synthesis. Intact chloroplasts can use light as an energy source; photosynthetically inactive chloroplasts require the addition of ATP for this protein synthesis. Preincubation of chloroplasts in light at 25°C for 1 h depleted the endogenous templates completely; such preincubated chloroplasts translated exogenously added heterologous templates efficiently. When total cellular RNA fromChlorella protothecoides, a C₃ plant, was used as template for translation in a cell-free light-dependent system of isolated mesophyll chloroplasts fromSorghum vulgare, a C₄ type plant, polypeptides of 55 kDa (large subunit) and 15 kDa (small subunit) were detectable in the fluorographic profile of the newly synthesized proteins; these polypeptides were absent in the products obtained with endogenous RNA. Evidence for the fidelity of the system was obtained by immunological analysis of ribulose 1, 5-bisphosphate carboxylase obtained by the translation ofChlorella cellular RNAs.     

Physical mapping of plastid DNA variation among eleven Nicotiana species

Summary Plastid DNA of seven American and four Australian species of the genus Nicotiana was examined by restriction endonuclease analysis using the enzymes Sal I, Bgl I, Pst I, Kpn I, Xho I, Pvu II and Eco RI. These endonucleases collectively distinguish more than 120 sites on N. tabacum plastid DNA. The DNAs of all ten species exhibited restriction patterns distinguishable from those of N. tabacum for at least one of the enzymes used. All distinctive sites were physically mapped taking advantage of the restriction cleavage site map available for plastid DNA from Nicotiana tabacum (Seyer et al. 1981). This map was extended for the restriction endonucleases Pst I and Kpn I. In spite of variation in detail, the overall fragment order was found to be the same for plastid DNA from the eleven Nicotiana species. Most of the DNA changes resulted from small insertions/deletions and, possibly, inversions. They are located within seven regions scattered along the plastid chromosome. The divergence pattern of the Nicotiana plastid chromosomes was strikingly similar to that found in the genus Oenothera subsection Euoenothera (Gordon et al. 1982). The possible role of replication as a factor in the evolution of divergence patterns is discussed. The restriction patterns of plastid DNA from species within a continent resembled each other with one exception in each instance. The American species N. repanda showed patterns similar to those of most Australian species, and those of the Australian species N. debneyi resembled those of most American species.Abbreviations ims isonuclear male sterile - ptDNA plastid chloroplast DNA - Rubisco ribulosebisphosphate carboxylase/oxygenase - kbp kilobase pairs - LSU large subunit of Rubisco     

Interaction of cotton tissue culture cells andVerticillium dahliae

Summary Elicitation of sesquiterpenoid aldehyde phytoalexins inGossypium arboreum cell suspension cultures was confirmed by thin layer chromatography, high performance reverse phase liquid chromatography, and an aniline-reaction assay after inoculation with heat-treated conidia ofVerticillium dahliae A 2.3X mean increase in total terpenoids was observed. Component phytoalexins varied, with either hemigossypol and gossypol being detected or the O-methylated terpenoids hemigossypol-6-methyl ether and related compounds. Long-termGossypium suspension cultures were mixoploid with an increase in chromosome number and mean DNA content. Addition ofV. dahliae elicitor(s) to the medium for embryo-proliferating callus ofG. hirsutum inhibited growth and embryo production with a linear correlation (r=−0.87;P<0.01) between the elicitor concentration and the number of embryos. Addition of¹⁴C-labeled NaOAc to suspension cells gave 30% incorporation, and from¹³C-NaOAc addition, labeled sesquiterpenoid aldehydes were recovered. The cotton-Verticillium system is another case of secondary metabolite elicitation in plant tissue culture and might be used for basic studies of hostpathogen interaction as well as for a selection tool to obtain resistance to an important disease.     

RNA,proteins and polyamines during gametophytic and androgenetic development of pollen in Nicotiana tabacum and Datura innoxia

Variations in polyamines, proteins and RNA during in vivo gametogenesis and in vitro androgenesis in Datura innoxia and in Nicotiana tabacum were studied. Spermidine was the major polyamine during gametogenesis in both species. Marked differences in proteins, RNA and polyamines were evident during meiosis and at the first haploid mitosis. In Nicotiana an unknown amine (X₆₀) appears at the beginning of the first haploid mitosis. At the same time a rapid increase in the concentrations of RNA and proteins is observed. In Datura, at the time of the first haploid mitosis there is large increase in amine and RNA levels followed by an arginine peak. During androgenesis, putrescine and spermidine were the major polyamines in both species. In Nicotiana during androgenesis an unknown amine (X₈₁) was observed together with putrescine and spermidine. This unknown compound peaks during the developmental stages of embryogenesis. In Datura androgenic induction was marked by an arginine peak followed by an increase in the putrescine and spermidine levels associated with maximum RNA. These biochemical events are tentatively correlated with structural changes during pollen development. The significance of these results is discussed in relation to the role of polyamines during gametogenesis and androgenesis.     

Interspecific differences in differentiation and dedifferentiation patterns in the genusNicotiana

Differentiation on hormoneless media, habituation ability and crown gall induction inNicotiana tissue cultures have been used as physiological parameters of evolutionary differentiation between species. Some of them on hormone free media differentiated whole plantlets, others produced only shoots or roots or showed undifferentiated growth (habituation), some eventually died. Moreover, the same genotypes showed a differential behaviour as far as tumor formation byAgrobacterium tumefaciens was concerned. Particularly, the competence for crown gall transformation inNicotiana species seems negatively correlated with differentiation capacity and may be ascribed to differences in the plants capacity to synthesize growth regulators. The correlation between the results obtained and the phylogenetic position of the genotypes tested is finally discussed.     

High molecular weight glutenin subunit variation in wild and cultivated einkorn wheats (Triticum spp.,Poaceae)

Variation in high molecular weight (HMW) glutenin subunit composition among wild and cultivated einkorn wheats (2n = 2x = 14, AA) was investigated using one- (SDS-PAGE and urea/SDS-PAGE) and two-dimensional (IEF × SDS-PAGE) electrophoretic analyses. The material comprised 150 accessions ofTriticum urartu, 160 accessions ofT. boeoticum, 24 accessions ofT. boeoticum subsp.thaoudar and 74 accessions of primitive domesticatedT. monococcum from many different germplasm collections. The biochemical characteristics of HMW-glutenin subunits ofT. boeoticum andT. monococcum were highly similar to one another but distinctly different from those ofT. urartu. All the species analysed were characterised by large intraspecific variation and only three HMW-glutenin subunit patterns were identical betweenT. boeoticum andT. monococcum. Consistent with the distinct nature ofT. urartu, all its HMW-glutenin patterns were different from those found inT. boeoticum andT. monococcum. The differences detected between these species might reflect their reproductive isolation and are consistent with recent nomenclatural and biosystematic treatments that recogniseT. urartu as separate species fromT. boeoticum andT. monococcum. The presence of three distinct glutenin components in some accessions of the species studied seems to be evidence for the existence of at least three active genes controlling the synthesis of the HMW-glutenin subunits in the A genome of wild and primitive domesticated diploid wheats. Results indicate also that HMW-glutenin subunits could represent useful markers for the evaluation of genetic variability present in different wild diploid wheat collections and subsequently for their conservation and future utilisation.     

Nuclear DNA changes,genome differentiation and evolution inNicotiana (Solanaceae)

A survey of 51 species fromNicotiana subgg.Tabacum, Rustica andPetunioides has shown that evolution was accompanied by a five-fold variation in nuclear DNA amounts. This variation, however, was not directly correlated with the changes in chromosome number. Drastic rearrangement of karyotypes is characteristic for the evolution ofNicotiana spp. Significant gain or loss in nuclear DNA has often accompanied such changes, but DNA variation has also occurred without significant changes in karyotype arrangements.—The distribution of nuclear DNA is discontinuous inNicotiana, species cluster into DNA groups with consistently regular increments in the mean DNA amounts. The discontinuities are viewed as steady states in terms of genomic balance and biological fitness.—Changes in the amount of nuclear DNA and in the heterochromatin are compared with the morphological, chromosomal and adaptive changes which accompanied speciation in 14 subgeneric sections. The evolutionary significance of DNA variation is discussed.     

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.