A. Atanassov

Freezing tolerant tobacco, transformed to accumulate osmoprotectants

Abstract Abiotic stresses are the major environmental challenges for plant growth and crop productivity. To cope with them various adaptation strategies have been developed by plants, including accumulation of osmoprotectants. Tobacco commercial cultivar was transformed to accumulate proline, fructan or glycine betaine. We used constructs harboring arabidopsis- or vigna-derived genes (AtP5Cs, VacP5Cs) for Δ1-pyroline-5-carboxylate synthetase production, SacB gene coding for levansucrase from Bacillus subtilis or the codA gene coding for choline oxidase from Arthrobacter globiformis. The reactions to sub-zero temperatures and osmotic stress were followed in several subsequent progenies. Stable transgenic lines have been selected. They survive freezing stress at controlled and field conditions. This is, we believe, the first report for freezing tolerance in proline and fructan transformed plants.

Regeneration of diploid annual medics via direct somatic embryogenesis promoted by thidiazuron and benzylaminopurine

Abstract The development of a simple and rapid procedure for direct somatic embryogenesis from wild Medicago spp. (M. truncatula, M. littoralis, M. murex, M. polymorpha) has exploited various explants including meristematic zones. Phytogel-solidified medium supplemented with thidiazuron or 6-benzylaminopurine at different concentrations effectively promoted this process. The first somatic structures emerged within 20 days of culture initiation. Histological analyses confirmed the nature of the directly formed embryos. Secondary embryogenesis was also observed. Cuttings of clusters of primary and secondary embryos were used for cyclic production of new embryo generations. Regenerated plants with well-developed root systems on medium with reduced levels of macroelements and sucrose were easily adapted to a greenhouse.

A new approach to direct somatic embryogenesis in Medicago

A highly efficient system for direct somatic embryogenesis is described. Leaf sections originating from young trifoliate leaves of Medicago falcata line 47/1–5 and Medicago sativa line No2/9R, directly produced embryos after cultivation in liquid B5IV induction medium. In comparison with indirect somatic embryogenesis the system omits the callus stage and thus allows shortening of the process of somatic embryogenesis in alfalfa by 35–40 days. It permits the avoidance of secondary changes occurring during the process of dedifferentiation. A modified B5/3H medium containing Polyethylene Glycol 6000 promoted embryo development from globular up to torpedo stage. It was clearly shown that 2.5% Polyethylene Glycol stimulated this process for both H. falcata 47/1–5 and M. sativa No 2/9R. Maturation of torpedo stage embryos was carried out on solidified or liquid abscisic acidcontaining medium. A 30μM abscisic acid concentration was optimal in allowing one embryo to yield one plant. Somatic embryo conversion to plants and plant regeneration was performed on Murashige and Skoog medium. Regenerated plants showed a normal morphology.

Expression of an anther-specific chalcone synthase-like gene is correlated with uninucleate microspore development in Nicotiana sylvestris

Two cDNA clones, specifically expressed in Nicotiana sylvestris anthers during uninucleate microspore development, were isolated using a subtractive hybridization approach. Sequence analysis showed that one of them, NSCHSLK, displayed a high level of similarity to several anther-specific chalcone synthase-like (CHSLK) proteins and an ORF from chromosome 1 of Arabidopsis thaliana. A lower, but significant, similarity to chalcone synthases and closely related enzymes (CHSRE) was also detected. The structure of the nschslk gene was found to be typical of the chalcone (chs) / stilbene (sts) synthase family. Expression of NSCHSLK mRNA was confined to microspores and tapetal cells. UV-irradiation or infection with Phytophthora parasitica var. nicotianae of transgenic Nicotiana benthamiana plants carrying a chimeric nschslk/GUS gene indicated that the nschslk promoter exhibits the same anther-specific, developmentally regulated expression pattern. Comparison of CHSRE and CHSLK polypeptide sequences revealed some important similarities and differences between the two groups. The data presented in this study, suggest that the anther-specific chslk genes represent a separate sub-family of plant polyketide synthases related to chs/sts in terms of gene structure, polypeptide sequence and the possible catalytic mechanism, but differing in substrate/product specificity. The putative role of CHSLK enzymes in anther development and particularly in exine synthesis is discussed.

Assessment of polysomaty, embryo formation and regeneration in liquid media for various species of diploid annual Medicago.

To avoid polyploidy in regenerants the source of explant material should be monosomatic. Therefore, the leaf and petiole tissue of five diploid Medicago species (Medicago ciliaris, Medicago murex, Medicago orbicularis, Medicago polymorpha and Medicago truncatula cv. Jemalong, and the ecotype R108-1) was assessed for polysomaty by flow cytometry. For the species studied the frequency of 2C nuclei was about 90% in leaves compared with that in petioles. Embryos were readily formed from tissue of leaves in liquid media containing 1 mg l(-1) or 4 mg l(-1) dichlorophenoxyacetic acid (2,4-D). For embryo development two procedures were tested - prolonged use of induction medium and treatment with polyethylene glycol Mw 6000 (PEG). The highly regenerable genotypes M. truncatula cv. Jemalong and R108-1 showed efficient conversion of embryos after maturation in liquid medium. The regenerated plants were diploid and with normal phenotype.

In vitro culture of the resurrection plant Haberlea rhodopensis

The small group of resurrection plants is a unique model which could help us in further understanding of abiotic stress tolerance. The most frequently used approach for investigations on gene functions in plant systems is genetic transformation. In this respect, the establishment of in vitro systems for regeneration and micro propagation is necessary. On the other hand, in vitro cultures of such rare plants could preserve their natural populations. Here, we present our procedure for in vitro regeneration and propagation of Haberlea rhodopensis – a resurrection plant species, endemic for the Balkan region.

CHARACTERISATION AND EXPRESSION OF THE MITOCHONDRIAL GENOME OF A NEW TYPE OF CYTOPLASMIC MALE-STERILE SUNFLOWER

A new cytoplasmic male sterile sunflower, CMS3 [44], was characterised in relation to the Petiolaris (PET1) cytoplasmic male-sterile sunflower, CMS89 [25]. Southern blot analysis showed that the mitochondrial genome of CMS3 contains unique rearrangements in at least five loci (atp6, atp9, atpA, nad1+5 and coxIII) compared to the PET1 sterile and the fertile cytoplasms. Transcripts of two (coxIII and atp6) of the five rearranged loci differed in CMS3 when compared to the corresponding loci in the PET1 and fertile cytoplasms. In organello protein synthesis experiments showed that the ca. 15 kDa mitochondrial polypeptide, characteristic of PET1, is not present in the CMS3 line. These data suggest that the molecular basis of male sterility in the CMS3 line differs from that of the PET1 cytoplasm. The nucleotide sequences of the coding and the immediate flanking regions of the coxIII and atp6 genes of CMS3 were compared to the corresponding regions from the fertile sunflower. In CMS3, the ORFB-cox III locus is located immediately 3′ to the atpA gene whereas in the fertile cytoplasm these two loci are ca. 60 kb apart. This DNA rearrangement probably involved a 265 bp repeat which may be implicated in the DNA recombination associated with PET1 CMS. The atp6 gene in CMS3 contains a 5′-terminal extention which results in an extended ORF. The potential involvement of the rearrangements associated with the coxIII and atp6 loci in relation to the CMS phenotype is discussed.

Transgenic tobacco cultivars resistant to Pseudomonas syringae pv. tabaci

Abstract Six oriental cultivars of tobacco (Nicotiana tabacum L.) were evaluated for transformation and foreign gene expression. Leaf-disc explant tissue was transformed with Agrobacterium tumefaciens strain LBA4404 carrying the plasmid pARK21, which contains NPTII gene and ttr (tabtoxin resistance) gene conferring the resistance to Pseudomonas syringae pv. tabaci. The disease resistance of regenerated plants and segregation of this trait up to R7 progeny were investigated in a greenhouse and under field conditions. Our results indicated that the resistance to Pseudomonas syringae pv. tabaci introduced by transformation is heritable.

A new CMS source in Nicotiana developed via somatic cybridization between N. tabacum and N. alata

Abstract Cytoplasmic somatic hybrids (cybrids) between the two sexually incompatible species Nicotiana tabacum and Nicotiana alata were constructed. A total of 33 green regenerants were obtained after fusion of protoplasts from a tobacco cytoplasmic chlorophyll-deficient mutant and gamma irradiation-inactivated leaf protoplasts of N. alata. Twenty nine of them were male sterile and displayed an altered stamen morphology (formation of petaloid and stigmoid structures instead of stamens). Southern-blot analyses of eight CMS plants using N. alata-specific nuclear repetitive DNA and cpDNA probes revealed that they contained nuclear genetic material of N. tabacum and chloroplasts from N. alata. Restriction-enzyme analysis of mitochondrial DNAs of the cybrids in question showed different patterns consisting of an incomplete mix of mtDNA fragments from both parents, as well as new fragments. Southern-blot analysis of mtDNAs with a sunflower atpA probe gave the same recombinant hybridization pattern for all analyzed cybrids, indicating that high-frequency specific recombination occurs in the atpA region. Analysis of the progeny from three successive backcrosses of the studied cybrids with N. tabacum demonstrated a strict cytoplasmic inheritance of the male-sterile phenotype.

Long-term resistance to tomato spotted wilt virus in transgenic tobacco cultivars expressing the viral nucleoprotein gene: greenhouse and field tests

We examined the resistance phenotype of a large number of transgenic tobacco plants originating from 12 commercial (Nicotiana tabacum) cultivars expressing the sense form of the nucleoprotein (N) gene of L3, a Bulgarian isolate of tomato spotted wilt virus (TSWV). The analysis revealed that transgenic plants are completely protected against the homologous L3 isolate of TSWV irrespective of whether or not they contain detectable levels of translational product. The effectiveness of protection against the virus was investigated upon mechanical inoculation under greenhouse conditions and in field trials. Non-segregating resistant lines were selected and the inheritance of the resistance to TSWV was analysed in successive generations (R3–R6). Extensive tests under controlled conditions and two-year field trials proved that the resistance to TSWV is stable in different environments and is a stably inherited trait.