Cytokinin dehydrogenase (CKX) is responsible for regulating the endogenous cytokinin content by oxidative removal of the side chain and seven distinct genes, AtCKX1 to AtCKX7, code for the enzyme in Arabidopsis thaliana. The recombinant enzyme AtCKX2 was produced in Saccharomyces cerevisiae after expressing the corresponding gene from a plasmid (pDR197) or following chromosomal integration, under either the constitutive promoter PMA1 or the inducible promoter GAL1. The recombinant protein was purified from yeast culture media using a sequence of chromatographic steps. The purified enzyme had a molecular mass of 61 kDa and a typical flavoprotein spectrum. The specific activity of the enzyme was 87.8 µkat g^-1, with isopentenyladenine as a substrate and 2,3-dimethoxy-5-methyl-p-benzoquinone as an electron acceptor. The pH optimum lay between 7.0 and 8.0, depending on the electron acceptor used. AtCKX2 reacts both with isoprenoid and aromatic cytokinins, the activity with isoprenoid cytokinins being two to three orders of magnitude higher. AtCKX2 prefers p-quinones and the synthetic dye 2,6-dichlorophenol indophenol as electron acceptors, although low reactivity with oxygen can also be observed. This study presents the first purification and characterization of the enzyme from Arabidopsis thaliana.

Four rice indica genotypes of local importance were transformed with RC7, rice chitinase cDNA clone through Agrobacterium-mediated gene transfer method using mature seed derived calli as explants. The putative hygromycin resistant calli showed varied level of regeneration efficiency ranging from 2.0 to 7.6 %. The stable integration and expression of RC7 was confirmed through polymerase chain reaction (PCR) and Western analysis. Transformation efficiency ranged from 0.9 to 5.2 %. The expression of RC7 (35 kDa chitinase) in different tissues of transgenic plant (root, sheath and leaf) was proved through Western analysis and in terms of increased chitinase activity. The inheritance of transgene was studied through PCR and Western analysis in transgenic plants of Pusa Basmati 1. Bioassays with transgenic plants of local cultivars exhibited enhanced resistance up to 33.3 % to rice sheath blight pathogen Rhizoctonia solani under glasshouse conditions. Enhanced expression or 3-to 4-fold increased activity of chitinase in transgenic plants was correlated with sheath blight resistance.

The coat protein gene isolated from Papaya ringspot virus, Thai isolate, was used to generate transgenic papayas. A binary vector containing the coat protein gene under the control of a 35S promoter, was constructed and transformed into somatic embryos of papaya cultivar Khak Dum by microprojectile bombardment. Eight transgenic lines were identified from 1980 bombarded calli of papaya somatic embryos under kanamycin selection. Integration of the transferred genes into kanamycin resistant papaya calli was verified by PCR amplification of the coat protein gene, GUS assays and Southern blot hybridization. Although the coat protein gene was detected in all transgenic lines, only line G2 was found to be highly resistant to virus. This resistant line showed high degree of rearrangement of the inserted coat protein expression cassette while the coat protein gene itself had a deletion of 166 bp on the 3' end of its sequence. Although the transcription of the coat protein gene was detected in all transgenic lines by RT-PCR, only two transgenic papayas expressed the intact coat protein. Moreover, in the resistant line G2 the amount of the truncated coat protein mRNA was significantly decreased. These results point to an RNA mediated mechanism of coat protein mediated resistance in papaya, probably based on post-transcriptional gene silencing.

Plant enzymes participating in degradation of nitroaromatic compounds have not been biochemically characterized in details so far. From suspension culture of soapwort (Saponaria officinalis L.) we isolated a novel plant oxidoreductase involved in degradation of trinitrotoluene (TNT). The enzyme catalyses first steps of reduction of TNT nitro groups in the presence of NAD(P)H under anaerobic conditions. The enzyme is monomeric with molecular mass 29 kDa, its two isoforms have pI 4.8 and 5.1. According to the spectral and activation analysis the enzyme contains flavinmono-nucleotide as a prosthetic group. The structure properties suggest an evolutional relationship to oxophytodienoate reductase. The N-terminal amino acid sequence shows homology to family of Old Yellow Enzyme (E.C. 1.6.99.1).

Immunocytochemical analysis using antibody raised against human H2AX histones phosphorylated at serine 139 (γ-H2AX) demonstrates that root meristem cells of Vicia faba exposed to UV-radiation or incubated with hydroxyurea (HU) reveal discrete foci at the border of the nucleolus and perinucleolar chromatin or scattered over the whole area of cell nucleus. Western blots detected only one protein band at the position expected for the phosphorylated form of H2AX. The dose-effect relationship was demonstrated following treatment with 2.5 and 10 mM HU. Proteins extracted from root meristems incubated for 2 h either with HU and caffeine or with HU and sodium metavanadate showed unchanged amounts of bound γ-H2AX antibodies, as compared to root meristems treated with 2.5 mM HU. Higher quantities of phosphorylated H2AX histones were detected in proteins extracted from roots treated with HU and 2-aminopurine. All treatments were effective in producing evident aberrations of premature mitosis: broken and lagging chromatids, acentric fragments, chromosomal bridges and micronuclei. Our results show that phosphorylation of H2AX at the carboxy-terminal Ser-Gln-Glu sequence is among the earliest responses to double-strand breaks and, presumably, one of the key ATM/ATR-dependent signals indispensable for the repair of spontaneous and induced DNA damage in plant cells.

The aim of this research was to set up a regeneration protocol from mature explants of Prunus avium L. cv. Hedelfinger and to develop an early screening method for selection of putative somaclones based on morphological and physiological traits regulated by the spectral quality of radiation. DNA analyses of a new somaclone named HS, conducted using Inter Simple Sequence Repeat (ISSR), revealed a polymorphism between the somaclone HS and wild type propagated by microcuttings. When grown under different spectral quality of radiation, somaclone HS showed a different pattern of growth and development compared to the wild type with the main modifications related to apical dominance and chlorophyll production. Somaclone HS showed reduced apical dominance compared to the wild type. Wild type shoots grown in darkness showed chlorophyll a and b contents at levels in both cases comparable to those recorded under red radiation while HS did not retain the same capability.

Valerophenone synthase homologue of chalcone synthase (CHS) is the first key enzyme described to be involved in the biosynthesis of bitter acids, the compounds produced in hop lupulin glands valuable for the taste of beer. The complete sequence of a novel homologue of CHS chs 4 was isolated from hop. Protein predicted from chs 4 cDNA has 43.45 kDa and length 395 amino acids. It was found by the analysis of chs 4 flanking sequences that this gene is in the cluster with other CHS homologues - chs 3 and vps. The intron identified in chs 4 has been found to be homological to vps and chs 3 introns. Expression of chs 4 was partially characterized using reverse transcription polymerase chain reaction and it was found that chs 4 is specifically expressed in the glandular tissue of hop cones likewise vps. The predicted protein sequence CHS 4 was compared with other CHS-like proteins.

In the course of a search for antifungal proteins from plant seeds, we observed inhibition of mycelial growth of Trichoderma viride with extracts of pearl millet. We have identified several proteins with antifungal properties in the seeds of pearl millet. One of these proteins has been purified to homogeneity and characterized. The purified protein has a molecular mass of 25 kDa. The N-terminal sequence of the protein (25 residues) shows homology to non-specific lipid transfer proteins (LTPs) of cotton, wheat and barley. The purified LTP inhibited mycelial growth of T. viride and the rice sheath blight fungus, Rhizoctonia solani in vitro.

Ferredoxin-dependent glutamate synthase (Fd-Gogat; EC 1.4.7.1) in leaf and root plastids is the last enzyme involved in the pathway of nitrate assimilation in higher plants. Arabidopsis thaliana expresses two different genes: the first, light regulated, specific of green tissues and the second expressed in other tissues. In this work, we investigated whether in our clone, OsGog2 AC Y12595, this gene is up-regulated by light or it is expressed under darkness. Fd-Gogat specific activity, protein and mRNA increased after light treatment in rice shoots. In roots, the activity and the protein content remained constant, whereas the mRNA is repressed by light treatment. The results obtained using a specific probe, situated in the 3' untranslated region of the OsGog2 cDNA, indicated that OsGog2 gene is up-regulated by light and that its expression is tissue specific and suggested that a dark expressed Fd-Gogat gene could be present in rice similarly as in Arabidopsis.

Telomere-binding proteins have recently been recognised not only as necessary building blocks of telomere structure, but namely as components which are of central importance to telomere metabolism being involved in regulation of telomere length as well as in protective (capping) function of telomeres. Although the knowledge on plant telomeric DNA-binding proteins lags behind that in human and yeast, recent data show both analogies and plant-specific features in the composition and interactions of telomeric proteins. This review focuses primarily on proteins with known amino acid sequence. These can be classified into following groups: 1) the family of proteins with Myb domain at C-terminus, 2) proteins with Myb domain at N-terminus, both binding double-stranded DNA of telomeric repeats TTTAGGG, 3) the single-stranded DNA-binding proteins, and 4) other proteins that act also in non-telomeric chromatin regions. Proteins with C-terminal Myb domain reported as IBP family were previously found in human, whereas Smh family representing proteins with Myb domain at N-terminus was identified only in plants. Also RRM family of the single-stranded DNA-binding proteins is likely to be plant specific.

Pollen embryogenesis was successfully induced in Solanum nigrum L. (2n=6×=72). Stimulation of androgenesis expressed as the frequency of androgenic responsive anthers was observed after 10 and 20 mM ethyl methanesulphonate (EMS), 10 and 20 mM sodium azide (NaN₃) and 0.2 mM N-nitroso-N-methylurea (MNU) treatment applied on seeds for 24 h. The frequency of androgenesis on the medium with sucrose was higher than on the medium with maltose. Androgenic regenerants originated also in the anthers collected from donor plants where survival after mutagenic treatment was lower than 50 %. Green haploid (3x), aneuploid (to 8x) and dihaploid (6x) plants were obtained. The high frequency of aneuploids among androgenic plants is explained by cell division irregularities in microsporial calli.

The pattern and expression level of β-glucuronidase (gus) reporter gene regulated by six heterologous promoters were studied in transgenic Populus tremula × P. alba plants obtained by Agrobacterium-mediated transformation. Binary vector constructs used contained the following promoter sequences: the CaMV35S from cauliflower mosaic virus; its duplicated version fused to the enhancer sequence from alfalfa mosaic virus; CsVMV from cassava vein mosaic virus; ubiquitin 3 from Arabidopsis thaliana (UBQ3); S-adenosyl-L-methionine synthetase (Sam-s) from soybean; and the rolA from Agrobacterium rhizogenes. Histochemical staining of root, stem and leaf tissues showed phloem and xylem-specific gus expression under rolA promoter, and constitutive expression with the other putative constitutive promoters. Quantitative GUS expression of 10 - 15 independently transformed in vitro grown plants, containing each promoter, was determined by fluorimetric GUS assays. The UBQ3-gus fusion induced the highest average expression level, although an extensive variation in expression levels was observed between independent transgenic lines for all the constructs tested.

The cladistic analysis of the DNA sequences of the internal transcribed spacers of ribosomal cistrons (ITS1 and ITS2) for 20 species of Cicer L. (among which all the annuals), shows that various sections of the genus are not monophyletic. Annual species do not form a clade: C. arietinum, in fact, is closely related to both C. echinospermum and C. reticulatum, whereas C. bijugum, C. judaicum, and C. pinnatifidum form a separate clade. The annual C. cuneatum is sister group to the perennial C. canariense and both are archaic species within the genus. C. yamashitae is, on the contrary, the only annual species belonging to a group of perennials, within which close relationships are evident between C. graecum and C. montbretii as well as among a group of mainly Asian species.

Shoot apical meristem-derived calli were transformed with a hLF cDNA in an attempt to produce human lactoferrin (hLF) in transgenic cell suspension cultures of sweet potato [Ipomoea batatas (L.) Lam.]. Calli were bombarded with tungsten particles coated with the binary vector pLSM1 containing a hLF cDNA under the control of the 35S promoter and the neomycin phosphotransferase gene as a selection marker. Calli were then transferred to Murashige and Skoog (MS) medium supplemented with 4.52 µM 2,4-dichlorophenoxyacetic acid (2,4-D) and 100 mg dm^-3 kanamycin. Kanamycin-resistant calli were selected at four-week intervals and subcultured. Cell suspension cultures were established in liquid MS medium with 4.52 µM 2,4-D. Southern and Northern blot analyses confirmed that hLF cDNA was incorporated into the plant genome and was properly expressed in the cells. ELISA analysis showed that transgenic cells produced hLF up to 3.2 µg mg^-1 (total protein).

Partial cDNAs sequences for arginine decarboxylase (Pvadc), S-adenosylmethionine decarboxylase (Pvsamdc) and spermidine synthase (Pvspds) were isolated from the bean Phaseolus vulgaris using primers designed from conserved regions of enzymes belonging to plant species. Sequence analysis showed that the Pvadc, Pvsamdc and Pvspds genes were most closely related to the orthologous genes from Glycine max, Phaseolus lunatus and Pisum sativum, respectively. The expression patterns of the genes, together with that of ornithine decarboxylase (Pvodc), were analysed in young and mature leaves, stems, roots, root tips, petals, stigma, ovaries, filaments and anthers of bean plants. Pvsamdc was found to be expressed at similar levels in all tissues. The other transcripts showed tissue specific expression. Pvadc was barely expressed in petals and not at all in roots tips, Pvspds was mainly expressed in roots, stigma and filaments, and Pvodc was detected only in roots.

We have designed and constructed four oligonucleotides corresponding to the most conserved regions of ornithine decarboxylases (ODC; EC 4.1.1.17) of plant origin. These oligonucleotides were used for the amplification of homologous fragments from several plants (Zea mays, Capsicum annuum, Sorghum bicolor, Phaseolus vulgaris, Carica papaya and Daucus carota). The amplified fragments were cloned and sequenced, revealing high homology to other ODCs. Peptide sequences coded by these fragments were compared by Clustal analyses. These analyses identified the location of the conserved sequences corresponding to the binding sites of substrate and cofactor. Data demonstrated that the plant ODCs fragments lacked intron sequences and were extremely homologous (over 80 %), constituting a compact group separated from other eukaryotic ODCs.

The effects of three cytokinins, kinetin 4.5 μM (Kin), 6-benzylaminopurine 4.5 μM (BA) and N-phenyl-N'1,2,3- thiadiazol-5-yl-urea 4.5 μM (TDZ), and the effects of different treatment duration on the regeneration of adventitious shoots from quince (Cydonia oblonga Mill.) leaves were studied. In a first experiment, leaves treated with Kin for 0, 8, 16 and 24 d were transferred to BA or TDZ-containing growth medium. In a second experiment TDZ applied for 0, 4, 8, 12, 16 and 24 d was followed by BA. All treatments included 0.5 μM α -naphthaleneacetic acid (NAA). In the sequence Kin-BA, the production of adventitious shoots decreased and reddish-coloured nodular structures (RNS) of meristematic appearance increased with increasing duration of Kin treatment, while somatic embryo formation was optimal at 8 d. In the Kin-TDZ sequence, shoot production was initially pronounced, but it declined with increasing duration of the Kin treatment, while the number of roots, somatic embryos and RNS increased. TDZ-BA treatments induced marked shoot production, which gradually increased with increasing duration of TDZ treatment. The presence of TDZ and a long treatment duration appeared to be very important factors in inducing caulogenesis. Kin appeared to be effective in shoot induction but not in shoot development; the results of this work demonstrate that RNS were adventitious shoots blocked at an early developmental stage on account of insufficient cytokinin activity. BA was less effective than TDZ in inducing shoot regeneration. Finally, both Kin and BA applied after 2,4-D treatment promoted somatic embryo induction.

Protoporphyrinogen oxidase (Protox) in the porphyrin pathway is the target site of the peroxidizing herbicides such as carfentrazone-ethyl and oxyfluorfen. In an attempt to develop herbicide-resistant plants, transgenic rice plants were generated via expression of herbicide-insensitive Bacillus subtilis Protox gene fused to the transit sequence for targeting to the plastid using Agrobacterium-mediated gene transformation. Homozygous transgenic rice lines of T₃ generation selected by hygromycin resistance test were examined if they are resistant to the herbicides carfentrazone-ethyl and oxyfluorfen. The homozygous transgenic lines had single copy insertion of B. subtilis Protox gene into their genomes and express its mRNA. Compared to wild-type rice, the transgenic lines were less susceptible to the herbicides when examined with respect to growth, electrolyte leakage, chlorophyll loss and lipid peroxidation. The in vitro Protox activities in transgenic lines were about 56 % higher than those in wild-type rice. With 10 µM concentration of the herbicides in the enzyme assays, Protox activities in transgenic lines were similar to those in non-inhibited wild-type rice. Less amount of protoporphyrin IX was accumulated in transgenic lines than in wild-type rice upon the treatment of the herbicides at 10 µM concentration. Our results indicated that expression of B. subtilis Protox gene was stably transmitted into T₃ rice plants and reduced their sensitivity to carfentrazone-ethyl and oxyfluorfen.

We have applied a simple method for evaluation of gfp gene expression in plants using a CCD camera and computerized processing of images. Transgenic tobacco plants were obtained by Agrobacterium tumefaciens-mediated transfer of plasmid T-DNA bearing a m-gfp5-ER sequence governed by the 35S promoter together with the nptII selectable marker gene. Presence of the gfp gene in plants was confirmed by a polymerase chain reaction method. Mean brightness values measured using image analysis software showed differences between transgenic and control plants and suggest the possibility of rapid selection of transgenic individuals among regenerants and their progenies.

We have cloned and characterized the expression of Crocus sativus AGAMOUS1 (CsAG1), a putative C-type MADS-box gene homologous to AGAMOUS (AG) from a triploid monocot species crocus (Crocus sativus L.). The typical domain structure of MIKC-type plant MADS proteins was identified. Phylogenetic analysis of the deduced amino acid sequence indicated that the isolated gene forms a clade with the AGAMOUS homologs from the monocots Hyacinthus orientalis and Phalaenopsis equestris. A differential splicing event altering the amino acid sequence at the C terminus was identified, leading to the formation of two mRNAs differing ten nucleotides in size. The presence of both differentially spliced transcripts was restricted only to mature crocus flowers and particularly to stamens and carpels.

Recent investigations on plant molybdenum-containing enzymes that include xanthine dehydrogenase (EC 1.1.1.204) and xanthine oxidase (EC 1.1.3.22), nitrate reductase (EC 1.7.1.1-3), aldehyde oxidase (EC 1.2.3.1), and sulfite oxidase (EC 1.8.3.1) are reviewed. The enzymes belong to closely related protein family and share common structural features. Special attention is being paid to the recently solved crystal structures their implications for the substrate binding and catalytic mechanism.

A full length cDNA (designated CrETR1) was isolated by polymerase chain reaction amplification of a cDNA library from periwinkle (Catharanthus roseus) cell cultures. CrETR1 cDNA encodes a polypeptide of 740 amino acids with a predicted molecular mass of 82 kDa. The deduced protein contains a hydrophobic ethylene-binding transmembrane region, a GAF domain, a third domain homologous to the histidine protein kinase domain of the prokaryotic two-component systems, and a fourth carboxyl-terminal domain homologous to the receiver domain of the response regulators, as found in the A. thaliana ethylene receptor ETR1. CrETR1 transcripts are strongly accumulated in petals and ovaries of C. roseus young plants whereas no significant changes are detected in cell cultures submitted to various stress or hormonal (including ethylene) treatments. The amount of the monoterpene indole alkaloid ajmalicine in the cells treated by ethylene is reduced after addition of inhibitors of histidine kinases showing a possible involvement of CrETR1 protein in the ethylene-related signalling pathway leading to alkaloid biosynthesis enhancement in C. roseus cell cultures.

Tortula ruralis is an important experimental system for the study of plant desiccation tolerance. EST gene discovery efforts utilizing desiccated gametophytes have identified a cDNA TrRpt2 encoding a predicted polypeptide with significant similarity to the 26S proteasome regulatory subunit IV. TrRPT2, the 446 amino acid deduced polypeptide, has a predicted molecular mass of 49.6 kDa, and a predicted pI of 8.15. Phylogenetic analysis demonstrated that previously characterized RPT2 polypeptide sequences could be reproducibly grouped into 3 major clades and that TrRPT2 forms a discrete evolutionary group. RNA blot hybridizations were used to analyze TrRpt2 expression in response to: 1) desiccation and rehydration, 2) abscisic acid-treatment, 3) increased NaCl concentration, and 4) NaCl-shock. TrRpt2 steady-state mRNA transcript levels are unchanged in response to all treatments and the gene is constitutively expressed.

The possibility was examined whether the pool of sequence variants of HLVd which accumulated as progeny of "thermomutants" induced upon heat-treatment of hop could initiate infection of non-host solanaceous plants. It was found that HLVd microevolution led to the appearance of HLVd population in tomato. This viroid population was maintained at levels detectable by molecular hybridisation, showing the highest concentration in apical leaves. HLVd was further transferred from tomato to Nicotiana benthamiana, where distinct HLVd sequence variants appeared and were stably maintained at low levels. Our results show that replication of HLVd under heat stress resulted in the production of viroid quasispecies, potentially important for viroid evolution in so-called non host plants.

Overexpression of antifungal pathogenesis-related (PR) proteins in crop plants has the potential for enhancing resistance against fungal pathogens. Thaumatin-like proteins (TLPs) are one group (PR-5, permatins) of antifungal PR-proteins isolated from various plants. In the present study, a plasmid containing a cDNA of rice tlp (D34) under the control of the CaMV-35S promoter was introduced into tobacco plants through Agrobacterium-mediated transformation system. A considerable overproduction of TLP was observed in transformed tobacco plants by Western blot analysis. There was a large accumulation of tlp mRNA in transgenic plants as revealed by Northern blot analysis. Southern blot analysis of the DNA from transgenic tobacco plants confirmed the presence of the rice tlp gene in the genomic DNA of transgenic tobacco plants. Immunoblot analysis of intracellular and extracellular proteins of transgenic tobacco leaves using a Pinto bean TLP antibody demonstrated that the 23-kDa TLP was secreted into the extracellular matrix. T₂ progeny of regenerated plants transformed with TLP gene were tested for their disease reaction to Alternaria alternata, the brown spot pathogen. Transgenic tobacco plants expressing TLP at high levels showed enhanced tolerance to necrotization caused by the pathogen.

A protein with an apparent molecular mass of 30 kDa that cross-reacts with barley glucanase antiserum was detected in healthy leaves of sorghum (Sorghum bicolor (L.) Moench). When sorghum leaves were infected with Exserohilum turcicum, the causal agent of leaf blight, the 30-kDa glucanase was substantially induced. The 30-kDa glucanase was partially purified from sorghum leaves using ammonium sulfate fractionation and anion exchange chromatography on DEAE-sephacel. The N-terminal amino acid sequence of the 30-kDa glucanase shows homology to glucanases of maize, barley, bean, soybean, tobacco and pea. The purified 30-kDa glucanase showed antifungal activity against Trichoderma viride.

An Agrobacterium rhizogenes-mediated transformation system for Aesculus hippocastanum L. has been developed. Wounded androgenic embryos of A. hippocastanum were inoculated with bacteria containing the pRiA4 plasmid, with the uid A sequence as a reporter gene. The hairy roots emerging from the wounded sites of androgenic embryos were isolated and maintained in Murashige and Skoog's (MS) liquid hormone-free medium. Five hairy root lines have been maintained in vitro for 4 years with unchanged growth rate and might be a suitable source for secondary metabolite production. The transformation events have been confirmed by a polymerase chain reaction specific to the rol A, B, C and D genes. The absence of residual contaminating bacteria has been shown by a polymerase chain reaction specific to the vir D1 sequence.

Potato spindle tuber viroid (PSTVd, severe strain) was isolated from tobacco plants transformed with a dimeric infectious expression construct which was maintained for a long time inAgrobacterium tumefaciens. Afterin vitro hybridization of PSTVd to complete minus transcripts of PSTVd (lethal), the resulting heteroduplexes were analyzed by electrophoresis under native conditions. Electrophoretic analysis revealed an appearence of electrophoretically distinguishable heteroduplexes, suggesting an accumulation of mutated sequence variants of PSTVd had occurred in the plant transformants. TGGE analysis of PSTVd cDNA, re-cloned from the original expression vector pCB1413 to plasmid pUC18 confirmed the accumulation of mutations in the cDNA and the instability of this sequence inA. tumefaciens maintained at 4°C for 2.5 years. One of these point mutations was identified by sequencing the PSTVd cDNAs isolated from the individualE. coli colonies. This transition (GC→AT) was localized at the position of 81 in the PSTVd genome, causing the change of C to U in PSTVd plus RNA. Transformation of tobacco with the freshly prepared expression vector containing the dimeric sequence of PSTVd lethal KF440-2 lead to the propagation of PSTVd electrophoretically identical to that derived from the original sequence and maintained in the tomato by a conventional infection.

The relationship between shoot hydraulic conductance (L) and stomatal sensitivity to changes in leaf water status was studied in the saplings of six deciduous tree species. L increased significantly in sequence: Acer platanoides < Tilia Cordata < Padus avium = Quercus robur < Salix caprea = Populus tremula. L was higher in the trees grown in soil with a higher nitrogen content and lower in the trees grown under mild water stress or kept in darkness for several days. L was higher in July than in September in all the species. L correlated positively with maximum photosynthesis, stomatal conductance and stomatal sensitivity to an increase in leaf water potential, but negatively with stomatal sensitivity to a decrease in leaf water potential. The correlations between L and any other parameter were approximated by three different curves: data for water-stressed plants fit to the first, data for plants kept in darkness fit to the second and all the other data fit to the third curve. The reasons of the differences of shoot hydraulic conductance in the different experimental sets and the mechanisms which may cause the correlation between L and the other characteristics are discussed.

The in vitro regeneration of three flax (Linum usitatissimum L.) breeding lines (cv. Jitka, cv. Areco and NLN 245) and selection of transgenic plants were studied. A. tumefaciens derived binary vector GV3101 (pPM90RK)(pPCVRN4) bearing tetramer of 35S promoter enhancer was used in transformation experiments. Following 3 weeks of cultivation on shoot inducing Murashige and Skoog agar medium containing BAP (0.1 µM) and NAA (0.005 µM) from 82.6 % to 98 % of hypocotyl segments formed shoots. While ticarcillin (500 mg dm^-3) used to eliminate Agrobacterium following the transformation decreased the organogenic response by about 10 % only, the addition of 20 mg dm^-3 hygromycin to ticarcillin efficiently suppressed the regeneration of untransformed control plants. To look up for genomic mutations caused by T-DNA insertion from Agrobacterium transformation or originated from somaclonal variation over 500 regenerated plants have been cloned, transferred into soil and evaluated especially for their morphological characteristics. Up to now among plants of cv. Areco-background at least 8 genotypes showed changes either in flower or filament and stigma colour and one clone of plants with pollen sterility was identified. Among fifty four plant clones evaluated in 7 clones the presence of transgene specific sequence hpt was detected and simultaneously Agrobacterium contamination of tissues was firmly excluded.