Expression,tissue distribution and subcellular localization of dehydrin TAS14 in salt-stressed tomato plants

We previously isolated and characterized TAS14, an mRNA that is induced in tomato upon osmotic stress or abscisic acid (ABA) treatment and that shares expression and sequence characteristics with other dehydrin genes in different species. Affinity-purified antibodies against TAS14 protein were used to study the expression of TAS14 protein, both in seedlings and mature plants, its tissue distribution and its subcellular localization. TAS14 protein was not detected in 4-day-old seedlings but accumulated after ABA, NaCl or mannitol treatments. In NaCl-treated seedlings, some protein was detectable after 6 h of treatment and reached maximal levels between 24 and 48 h. Concentrations ranging from 5 to 12.5 g/l NaCl induced the protein to similar levels. In salt-stressed mature plants, TAS14 was expressed abundantly and continuously in aerial parts, but only slightly and transiently in roots. Immunocytochemical analysis of salt-treated plants showed TAS14 accumulated in adventitious root primordia and associated to the provascular and vascular tissues in stems and leaves. Immunogold electron microscopy localized TAS14 protein both in the cytosol and in the nucleus, associated to the nucleolus and euchromatin. Since TAS14 is a phosphoprotein in vivo, the classes of protein kinases potentially responsible for its in vivo phosphorylation were tested in in vitro phosphorylation assays. TAS14 protein was phosphorylated in vitro by both casein kinase II and cAMP-dependent protein kinase.The first two authors contributed equally to this paper.     

Structure and expression of a nuclear gene for the PSI-D subunit of photosystem I inNicotiana sylvestris

The PSI-D subunit is the ferredoxin-binding site of photosystem I, and is encoded by the nuclear genepsaD. We isolated apsaD genomic clone fromNicotiana sylvestris, by screening a genomic library with apsaD cDNA which we previously cloned fromN. sylvestris (Yamamotoet al., Plant Mol Biol 17: 1251, 1991). Nucleotide sequence analysis revealed that this genomic clone contains apsaD gene, which does not correspond to thepsaD cDNA, so we designated these genespsaDb andpsaDa, respectively. ThepsaDb clone encodes a protein of 214 amino acids uninterrupted by introns. The N-terminal sequence determined for theN. sylvestris PSI-D protein encoded bypsaDb begins at the 49th residue. The products ofpsaDa andpsaDb share 82.7% and 79.5% identity at the amino acid and nucleotide levels, respectively. Genomic Southern analysis showed that two copies ofpsaD are present in theN. sylvestris genome. Ribonuclease protection assays and immunoblot analysis inN. sylvestris indicate that both genes are expressed in leaves, stems and flower buds, but neither is expressed in roots. During leaf development, the ratio ofpsaDb topsaDa mRNA increases from 0.12 in leaf buds to 0.36 in mature leaves. The relative abundance of the corresponding proteins decreased over the same developmental period. These results indicate that differential regulation mechanisms controlpsaDa andpsaDb expression at both the mRNA and protein levels during leaf development.     

Arabidopsis thaliana Atrab28: a nuclear targeted protein related to germination and toxic cation tolerance

The Arabidopsis gene Atrab28 has been shown to be expressed during late embryogenesis. The pattern of expression of Atrab28 mRNA and protein during embryo development is largely restricted to provascular tissues of mature embryos, and in contrast to the maize Rab28 homologue it cannot be induced by ABA and dehydration in vegetative tissues.Here, we have studied the subcellular location of Atrab28 protein and the effect of its over-expression in transgenic Arabidopsis plants. The Atrab28 protein was mainly detected in the nucleus and nucleolus of cells from mature embryos. In frame fusion of Atrab28 to the reporter green fluorescent protein (GFP) directed the GFP to the nucleus in transgenic Arabidopsis and in transiently transformed onion cells. Analysis of chimeric constructs identified an N-terminal region of 60 amino acids containing a five amino acid motif QPKRP that was necessary for targeting GFP to the nucleus. These results indicate that Atrab28 protein is targeted to the nuclear compartments by a new nuclear localization signal (NLS). Transgenic Arabidopsis plants, with gain of Atrab28 function, showed faster germination rates under either standard or salt and osmotic stress conditions. Moreover, improved cation toxicity tolerance was also observed not only during germination but also in seedlings. These results suggest a role of Atrab28 in the ion cell balance during late embryogenesis and germination.     

High-efficiency,microprojectile-mediated cotransformation of sugarcane,using visible or selectable markers

Transient expression of the maize anthocyanin regulatory elements,R andC1, was used to optimise parameters for microprojectile-mediated delivery of DNA into sugarcane embryogenic callus. Osmotic treatment of target tissues and particle acceleration in a high-pressure helium pulse increased the frequency of transient expression to 5–8×10³ cells per bombardment, with minimal tissue damage. An average of 0.34% of transiently expressing cells developed into stably transformed, anthocyanin-pigmented proembryoids which subsequently regenerated into plantlets. However, constitutive expression ofR andC1 proved deleterious, and no anthocyanin-pigmented plant survived beyond 3 cm in height. We also compared selective subculture of callus portions showing luciferase activity with antibiotic selection on medium containing G418 or phosphinothricin, upon bombardment of callus with constructs driving strong expression ofluc, aphA orbar genes. Selective subculture based on luciferase activity enabled recovery of 1.4±0.5 independent transgenic plants per bombardment, compared to 19.8±3.7 independent transgenic plants per bombardment from an optimised G418 selection regimen, and no transformed plants from phosphinothricin selection. Whenluc andaphA on separate plasmids were coprecipitated onto microprojectiles before bombardment, 67–79% of callus lines selected for G418 resistance also showed luciferase activity detectable under a low-light camera. Southern analysis confirmed a very high cotransformation frequency, with variable copy numbers of introduced genes. The high efficiencies of gene transfer, selection and cotransformation in the optimised system, coupled with the simple initiation and regeneration of embryogenic callus, provide an effective tool for practical genetic transformation of sugarcane.     

Plant regeneration from cotyledonary protoplasts of cauliflower (Brassica oleracea L. var.botrytis L.)

Summary Protoplasts isolated enzymatically from precultured cotyledonary leaves ofB. oleracea var.botrytis and cultured in KM8p medium (Kao andMichayluk 1975) underwent sustained divisions in about 0.1% population to eventually produce callus, whereas mesophyll protoplasts from either field grown orin vitro raised plants failed to divide. The callus readily differentiated on Murashige-Skoog medium as modified for shoot culture (Binding 1974) to give rise to shoot and roots.     

Caryological behavior during the first phases of dedifferentiation and habituation inNicotiana bigelovii

Summary Hypocotylar tissues ofNicotiana bigelovii var.quadrivalvis seedlings were induced to dedifferentiate and to habituate after a short treatment with 2,4-D or kinetin.Investigation by cytophotometry and chromosome counts on the nuclear cytology of callus induction and development in minimal medium showed, in addition to diploid cells, an high incidence of aneuploid nuclei. Amitotic phenomena have frequently observed during the culture period. The sequence of nuclear events were not influenced by the hormonal composition of the medium.The origin of these aneuploid cells from nuclear fragmentation processes is hypothesized.The results are discussed in comparison with the cytological status of other habituated and tumorous tissues in plant and animal systems.     

The Bt gene <Emphasis Type="Italic">cry2Aa2</Emphasis> driven by a tissue specific ST-LS1 promoter from potato effectively controls <Emphasis Type="Italic">Heliothis virescens</Emphasis>

Expression of the Cry2Aa2 protein was targeted specifically to the green tissues of transgenic tobacco Nicotiana tabacum cv. Xanthi plants. This deployment was achieved by using the promoter region of the gene encoding the Solanum tuberosum leaf and stem specific (ST-LS1) protein. The accumulated levels of toxin in the leaves were found to be effective in achieving 100 mortality of Heliothis virescens larvae. The levels of Cry2Aa2 expression in the leaves of these transgenic plants were up to 0.21 of the total soluble proteins. Bioassays with R₁ transgenic plants indicated the inheritance of cry2Aa2 in the progeny plants. Tissue-specific expression of the Bt toxin in transgenic plants may help in controlling the potential occurrence of insect resistance by limiting the amount of toxin to only predated tissues. The results reported here validate the use of the ST-LS1 gene promoter for a targeted expression of Bt toxins in green tissues of plants.     

Pea dehydrins: identification,characterisation and expression

An antiserum raised against dehydrin from maize (Zea mays) recognised several polypeptides in extracts of pea (Pisum sativum) cotyledons. A cDNA expression library was prepared from mRNA of developing cotyledons, screened with the antiserum and positive clones were purified and characterised. The nucleotide sequence of one such clone, pPsB12, contained an open reading frame which would encode a polypeptide with regions of significant amino acid sequence similarity to dehydrins from other plant species.The deduced amino acid sequence of the pea dehydrin encoded by B12 is 197 amino acids in length, has a high glycine content (25.9%), lacks tryptophan and is highly hydrophilic. The polypeptide has an estimated molecular mass of 20.4 kDa and pI=6.4. An in vitro synthesised product from the clone comigrates with one of the in vivo proteins recognised by the antiserum.A comparison of the pea dehydrin sequence with sequences from other species revealed conserved amino acid regions: an N-terminal DEYGNP and a lysine-rich block (KIKEKLPG), both of which are present in two copies. Unexpectedly, pea dehydrin lacks a stretch of serine residues which is conserved in other dehydrins.B12 mRNA and dehydrin proteins accumulated in dehydration-stressed seedlings, associated with elevated levels of endogenous abscisic acid (ABA). Applied ABA induced expression of dehydrins in unstressed seedlings. Dehydrin expression was rapidly reversed when seedlings were removed from the stress or from treatment with ABA and placed in water.During pea cotyledon development, dehydrin mRNA and proteins accumulated in mid to late embryogenesis. Dehydrin proteins were some of the most actively synthesised at about the time of maximum fresh weight and represent about 2% of protein in mature cotyledons.     

Expression of photosynthesis-related genes and their regulation by light during somatic embryogenesis in<Emphasis Type="Italic"> Daucus carota</Emphasis>

To clarify the spatial and temporal pattern of gene expression for photosynthesis-associated proteins during somatic embryogenesis in Daucus carota L., the localization of mRNAs for three genes, rbcL, Lhcb and por, was examined in dark-grown and light-irradiated somatic embryos by in situ hybridization. The three mRNAs were expressed in common in the mesophyll precursor cells of light-irradiated embryos at the late torpedo and plantlet stages, but characteristic expression patterns of each photosynthesis-related gene were also observed. Expression of rbcL mRNA first occurred throughout the embryo but gradually became localized in the mesophyll precursor cells and cortex during early embryogenesis. Localization of Lhcb mRNA in the mesophyll precursor cells and shoot apical meristem became clear in the early torpedo stage. Expression of Lhcb mRNA was not affected by light during early embryogenesis, but could be induced by light in the torpedo stage, suggesting that light-inducible expression of Lhcb mRNA arises within the torpedo stage. At the late torpedo stage, clear localization of por mRNA started in mesophyll precursor cells of the cotyledon in light-irradiated embryos. Greening potency of the embryo also appeared first at this stage. Therefore, greening and initial differentiation of photosynthetic tissues during somatic embryogenesis seem to be associated with coordinated expression of mRNA for rbcL, Lhcb and por in late torpedo-shaped embryos.Abbreviations DIG Digoxigenin - Lhcb3 Gene encoding a type-III light-harvesting chlorophyll a/b-binding protein of photosystem II - LHCII Light-harvesting chlorophyll a/b-binding protein of photosystem II - POR Protochlorophyllide oxidoreductase - rbcL Gene encoding the large subunit of Rubisco - Rubisco Ribulose-1,5-bisphosphate carboxylase/oxygenase     

Coproporphyrinogen III oxidase from barley and tobacco — sequence analysis and initial expression studies

Coproporphyrinogen III oxidase (coprogen oxidase; EC 1.3.3.3) is part of the pathway from 5-aminolevulinate to protoporphyrin IX which is common in all organisms and catalyses oxidative decarboxylation at two tetrapyrrole side chains. We cloned and sequenced fulllength cDNAs encoding coprogen oxidase from barley (Hordeum vulgare L.) and tobacco (Nicotiana tabacum L.). They code for precursor peptides of 43.6 kDa and 44.9 kDa, respectively. Import into pea plastids resulted in a processed tobacco protein of approx. 39 kDa, which accumulated in the stroma fraction. Induction of synthesis of recombinant putative tobacco mature coprogen oxidase consisting of 338 amino-acid residues in Escherichia coli at 20°C result in a catalytically active protein of approx. 39 kDa, while induction of its formation at 37°C immediately terminated bacterial growth, possibly due to toxic effects on the metabolic balance of tetrapyrrole biosynthesis. The plant coprogen oxidase gene was expressed to different extents in all tissues investigated. This is most likely due to the differing requirements for tetrapyrroles in different organs. The steady-state level of mRNA did not significantly differ in etiolated and greening barley leaves. The content of coprogen oxidase RNA reached its maximum in developing cells and decreased drastically when cells were completely differentiated. Functioning of the two photosystems apparatus requires the synthesis of all pigment and protein components during plant development. It is speculated that the enzymes involved in tetrapyrrole synthesis are developmentally rather than light-dependently regulated. Regulation of these enzymes also guarantees a constant flux of metabolic intermediates and avoids photodynamic damage by accumulating porphyrins. Accession number: The nucleotide sequence data reported will appear in the EMBL, GenBank and DDBJ Nucleotide Sequence Databases under the accession numbers X82830 (barley coprogen oxidase) and X82831 (tobacco coprogen oxidase).     

Promoter strength influences polyamine metabolism and morphogenic capacity in transgenic rice tissues expressing the oat adc cDNA constitutively

We analyzed molecularly and biochemically a series of transgenic rice lines expressing the oat adc (arginine decarboxylase) cDNA under the control of the constitutive maize ubiquitin 1 promoter. We established baseline biochemical parameters to elucidate the role of polyamines (PAs) during morphogenesis. We measured mRNA levels, ADC enzyme activity and cellular PAs in dedifferentiated callus. Polyamine levels were also quantified in two subsequent developmental stages – regenerating tissue and differentiated shoots. We observed significant (P<0.05) differences in the levels of individual PAs at the three developmental stages. The amounts of putrescine (Put) and spermidine (Spd) in dedifferentiated transgenic callus were lower than those in the wild type or in hpt (hygromycin resistant)-controls, whereas the amount of spermine (Spm) was increased up to two-fold. In regenerating tissue, this trend was reversed, with significantly higher levels of Put and Spd (P<0.05), and lower levels of Spm (P<0.05) compared to non-transformed or hpt-control tissues at the same developmental stage. In differentiated shoots, there was a general increase in PA levels, with significant increases in Put, Spd, and Spm (P<0.05); on occasion reaching six times the level observed in wild type and hpt-control tissues. These results contrast those we reported previously using the weaker CaMV 35S promoter driving adc expression. mRNA measurements and ADC enzyme activity were consistently higher (P<0.01) in all tissues expressing pUbiadcs compared to equivalent tissues engineered with 35Sadc. Our findings are consistent with a threshold model which postulates that high adc expression leading to production of Put above a basal level is necessary to generate a big enough metabolic pool to trigger PA flux through the pathway leading to an increase in the concentration of Spd and Spm. This can be best accomplished by a strong constitutive promoter driving adc. We discuss our results in the context of flux through the PA pathway and its impact on morphogenesis.     

Expression and localization of intestinal 15 kDa protein in the rat

Rat intestinal 15 kDa protein (I-15P) is highly homologous to porcine gastrotropin. We studied the occurrence, distribution and subcellular localization of I-15P in the entire rat body, using the immunocytochemistry to localize protein andin situ hybridization to localize mRNA. Both techniques demonstrated the expression of I-15P in the enterocytes of ileum, luteal cells of ovary and a subpopulation of steroid-endocrine cells of adrenal gland. Immuno-electron microscopy further demonstrated that I-15P is localized in both the cytoplasmic and nuclear matrix regions of these cells. The present results suggest roles of I-15P not only in the transport of bile salts but also in the metabolisms of certain steroid hormones.     

Localization of the type I ribosome inactivating protein, luffin, in adult and embryonic tissues of Luffa cylindrica L. Roem

The subcellular localization of the type I ribosome-inactivating protein, luffin, has been investigated by means of immunofluorescence light microscopy. A different pattern of protein distribution has been observed in embryonic and somatic tissues. In mature seeds luffin is accumulated within protein bodies in the storage tissue; vacuolar compartmentation in cells of the cotyledonary leaves is maintained during germination of the seedlings. In adult tissues, such as mature leaves and stems, the targeting of the protein is different, since luffin is found in the extracellular spaces. This localization outside the plasma membrane has been confirmed by enzymatic activity determination on the intercellular fluid present in the apoplastic space. Results on luffin localization are discussed with respect to the putative function(s) of this enzyme.Keywords: Luffa cylindrica L. Roem., luffin, ribosome-inactivating proteins (RIPs), secretory proteins, subcellular compartmentation.      

Immunity functions of Arabidopsis pathogenesis-related 1 are coupled but not confined to its C-terminus processing and trafficking

The pathogenesis-related 1 (PR1) proteins are members of the cross-kingdom conserved CAP superfamily (from Cysteine-rich secretory protein, Antigen 5, and PR1 proteins). PR1 mRNA expression is frequently used for biotic stress monitoring in plants; however, the molecular mechanisms of its cellular processing, localization, and function are still unknown. To analyse the localization and immunity features of Arabidopsis thaliana PR1, we employed transient expression in Nicotiana benthamiana of the tagged full-length PR1 construct, and also disrupted variants with C-terminal truncations or mutations. We found that en route from the endoplasmic reticulum, the PR1 protein transits via the multivesicular body and undergoes partial proteolytic processing, dependent on an intact C-terminal motif. Importantly, only nonmutated or processing-mimicking variants of PR1 are secreted to the apoplast. The C-terminal proteolytic cleavage releases a protein fragment that acts as a modulator of plant defence responses, including localized cell death control. However, other parts of PR1 also have immunity potential unrelated to cell death. The described modes of the PR1 contribution to immunity were found to be tissue-localized and host plant ontogenesis dependent.     

Tissue culture specificity of the tobacco ASA2 promoter driving hpt as a selectable marker for soybean transformation selection

This study was carried out to determine if the tobacco anthranilate synthase ASA2 2.3 kb promoter drives tissue culture specific expression and if it is strong enough to drive hpt (hygromycin phosphotransferase) gene expression at a level sufficient to allow selection of transformed soybean embryogenic culture lines. A number of transformed cell lines were selected showing that the promoter was strong enough. Northern blot analysis of plant tissues did not detect hpt mRNA in the untransformed control or in the ASA2-hpt plants except in developing seeds while hpt mRNA was detected in all tissues of the CaMV35S-hpt positive control line plants. However, when the more sensitive RT-PCR assay was used all tissues of the ASA2-hpt plants except roots and mature seeds were found to contain detectable hpt mRNA. Embryogenic tissue cultures initiated from the ASA2-hpt plants contained hpt mRNA detectable by both northern and RT-PCR analysis and the cultures were hygromycin resistant. Friable callus initiated from leaves of ASA2-hpt plants did in some cases contain hpt mRNA that was only barely detectable by northern hybridization even though the callus was very hygromycin resistant. Thus the ASA2 promoter is strong enough to drive sufficient hpt expression in soybean embryogenic cultures for hygromycin selection and only very low levels of expression were found in most plant tissues with none in mature seeds.     

Stubborn GFPs in Nicotiana tabacum vacuoles

Green fluorescent protein (GFP) allows the direct visualization of gene expression and sub cellular localization of fusion proteins in living cells. Many GFP variants have been developed to solve stability and emission problems. In this report the localization of different GFP fusion proteins, targeted to vacuoles, was studied in Nicotiana tabacum cv SR1. Even if a strong emission variant of the plant adapted GFP was used, no fluorescence was detected in differentiated tissues of N. tabacum with few exceptions. This model plant does not appear a good experimental system for the use of GFPs as vacuolar markers compared to Arabidopsis thaliana. In spite of this, our observations have evidenced a peculiar pattern of separated vacuoles in guard cells, providing new elements in the understanding of the vacuolar system organization.