Expression of Arabidopsis CBF1 regulated by an ABA/stress inducible promoter in transgenic tomato confers stress tolerance without affecting yield

Modern‐day plants are subjected to various biotic and abiotic stresses thereby limiting plant productivity and quality. It has previously been reported that the use of a strong constitutive 35S cauliflower mosaic virus (CaMV) promoter to drive the expression of Arabidopsis CBF1 in tomato improved tolerance to cold, drought and salt loading, at the expense of growth and yield under normal growth conditions. Hence in the present study, the suitability of expressing the Arabidopsis CBF1 driven by three copies of an ABA‐responsive complex (ABRC1) from the barley HAV22 gene in order to improve the agronomic performance of the transgenic tomato plants was investigated. Northern blot analysis indicated that CBF1 gene expression was induced by chilling, water‐deficit and salt treatment in the transgenic tomato plants. Under these tested stress conditions, transgenic tomato plants exhibited enhanced tolerance to chilling, water‐deficit, and salt stress in comparison with untransformed plants. Under normal growing conditions the ABRC1‐CBF1 tomato plants maintained normal growth and yield similar to the untransformed plants. The results demonstrate the promise of using ABRC1‐CBF1 tomato plants in highly stressed conditions which will in turn benefit agriculture.     

Overexpression of the Arabidopsis gai gene in apple significantly reduces plant size

Genetic engineering is an attractive method to obtain dwarf plants in order to eliminate the extensive use of growth retardants in horticultural crop production. In this study, we evaluated the potential of using the Arabidopsis gai (gibberellic acid insensitive) gene to dwarf apple trees. The gai gene under 35S promoter was introduced in the apple rootstock A2 and the cultivars Gravenstein and McIntosh through Agrobacterium-mediated transformation. One transgenic clone was recovered for Gravenstein and McIntosh, and several transgenic clones for A2, confirmed by Southern blot analysis. Two weak bands were detected by Southern blot analysis in all the untransformed controls, possibly indicating the existence of the internal GAI gene in apple. Most of the transgenic plants showed reduced growth in vitro. Growth analyses in the greenhouse showed a clear reduction in stem length, internode length and node number for the dwarf clones. The normal phenotype of some transgenic clones appears to be associated with silencing of the introduced gai gene, confirmed by RT–PCR analysis. In general, transgenic clones showed reduced rooting ability, especially for the extremely compact ones.     

Expression and functional analysis of an Entamoeba histolytica truncated adhesin in tomato plants

Several antigens from Entamoeba histolytica the agent causing human amoebiasis have been identified as potential vaccine candidates. One of them is the EhADH112 adhesin, which plays an important role during trophozoite adherence to and phagocytosis of target cells. We report here the expression of the EhADH112 carboxy-terminus of the gene (Adh240) in tomato plants. A 28 kDa band is recognized by specific antibodies in total proteins from transformed tomatoes. The plant-based adhesin conserves the ability to inhibit trophozoite adherence and phagocytosis of target cells by an average of 32.8 and 44.75% respectively.     

Effects of enhanced UV-B radiation on the hormonal content of vegetative and reproductive tissues of two tomato cultivars and their relationships with reproductive characteristics

The effects of enhanced UV-B radiation on hormone changes in vegetative and reproductive tissues of tomato (Lycopersicon esculentum Mill.) and their relationships with reproductive characteristics were studied. Two cultivars, TongHui (TH) and XiaGuang (XG), were grown in the field for one growing season under ambient (Control), ambient plus 2.54 kJ m^–2 d^–1 (T1) or ambient plus 4.25 kJ m^–2 d^–1 (T2) of supplemental ultraviolet-B (280–320 nm). The number of open flowers increased significantly in the TH cultivar under T2 while it declined in the XG cultivar under T1. Although pollen germination from both cultivars was inhibited by UV-B treatment, fruit number was enhanced in the TH cultivar at both UV-B doses and in the XG cultivar at the low dose. On the other hand, seed size (dry weight) was reduced in the XG cultivar by both UV-B doses and in the TH cultivar at the low UV-B dose. The final germination rates of seeds from control and UV-B treated plants of both cultivars showed no significant differences (p > 0.05), while germination was delayed in the TH cultivar at both doses of UV-B and in the XG cultivar only for T2. To determine the mechanism of UV-B's effects on developmental processes, hormone concentrations in leaves, pistils and seeds were analyzed using ELISA on partially purified extracts. The results suggested that enhanced UV-B radiation induced hormone changes in both vegetative and reproductive tissues. The alteration of flower number may be associated with the changes of ZR in leaves under enhanced UV-B radiation and the delayed germination may due to the changes in seed ABA and GAs.     

Immunocytolocalization of 1-aminocyclopropane-1-carboxylic acid oxidase in tomato and apple fruit

The subcellular localization of 1-aminocyclopropane-1-carboxylic acid oxidase (ACC oxidase), an enzyme involved in the biosynthesis of ethylene, has been studied in ripening fruits of tomato (Lycopersicum esculentum Mill.). Two types of antibody have been raised against (i) a synthetic peptide derived from the reconstructed pTOM13 clone (pRC13), a tomato cDNA encoding ACC oxidase, and considered as a suitable epitope by secondary-structure predictions; and (ii) a fusion protein overproduced in Escherichia coli expressing the pRC13 cDNA. Immunoblot analysis showed that, when purified by antigen affinity chromatography, both types of antibody recognized a single band corresponding to ACC oxidase. Superimposition of Calcofluor white with immunofluorescence labeling, analysed by optical microscopy, indicated that ACC oxidase is located at the cell wall in the pericarp of breaker tomato and climacteric apple (Malus × domestica Borkh.) fruit. The apoplasmic location of the enzyme was also demonstrated by the observation of immunogold-labeled antibodies in this region by both optical and electron microscopy. Transgenic tomato fruits in which ACC-oxidase gene expression was inhibited by an antisense gene exhibited a considerable reduction of labeling. Immunocytological controls made with pre-immune serum or with antibodies pre-absorbed on their corresponding antigens gave no staining. The discrepancy between these findings and the targeting of the protein predicted from sequences of ACC-oxidase cDNA clones isolated so far is discussed.     

Isolation of a 6.2 kb genomic fragment carrying the Adh1 gene of tomato and its expression in transgenic tobacco

An 11 kb Eco RI genomic fragment containing the alcohol dehydrogenase (Adh1) gene was cloned. Cross-hybridization with three Adh2 cDNA clones suggested that the entire coding region of the Adh1 gene was contained on a 6.2 kb Xba I/Hind III subfragment. Using RFLP linkage analysis, the genomic clone was mapped on chromosome 4 between the markers TG 182 and TG 65 in a position corresponding to the Adh1 locus. To further confirm the Adh1 origin of the genomic clone, tobacco plants were transformed with the 6.2 kb Xba I/Hinb III genomic subfragment. Isozyme analysis demonstrated that in transgenic tobacco plants functional tomato specific ADH-1 homodimers were synthesized as well as heterodimers composed of tobacco and tomato subunits.     

Constitutive expression of the SAP1 gene from willow (Salix discolor) causes early flowering in Arabidopsis thaliana

SAP1-1 and SAP1-2 were isolated from the male reproductive buds of willow (Salix discolor, clone S365). SAP1-1 differs from SAP1-2 based on a few nucleotide substitutions, but the sizes of their full-length cDNAs are identical. The deduced amino acid sequences of SAP1-1 and SAP1-2 were 98% similar and contain the same C-terminal amino acid motif “GYGA” like that of PTAP1-2 from Populus trichocarpa. The expression patterns of SAP1 in various parts of the male reproductive buds of S. discolor implicate this gene in the formation of the inflorescence meristems, bracts, and floral meristems. To characterize the functions of SAP1, we assessed Arabidopsis thaliana transformed with 35S∷SAP1-1. A total of 52 transgenic T₁ lines were obtained, and a 3:1 segregation ratio was obtained in the T₂ generation of each line. In the T₃ generation, five homozygous transgenic lines were obtained, which were used for further analysis. Screening of transgenic lines was greatly facilitated by the detection of GFP expression starting with germinating seeds. Phenotypes of the homozygous transgenic lines included early flowering, conversion of inflorescence branches to solitary flowers, formation of terminal flowers, and formation of flowers with greater number of petals, stamens, and pistils. Northern analysis showed similar expression levels in all five lines. This study provides the first functional analysis of an APETALA1 (AP1)/SQUAMOSA (SQUA) homolog from a dioecious species and suggests that SAP1 is a homolog of the AP1/SQUA gene.     

Transgene-mediated auxin overproduction in Arabidopsis: hypocotyl elongation phenotype and interactions with the hy6-1 hypocotyl elongation and axr1 auxin-resistant mutants

Transgenic Arabidopsis thaliana plants constitutively expressing Agrobacterium tumefaciens tryptophan monooxygenase (iaaM) were obtained and characterized. Arabidopsis plants expressing iaaM have up to 4-fold higher levels of free indole-3-acetic acid (IAA) and display increased hypocotyl elongation in the light. This result clearly demonstrates that excess endogenous auxin can promote cell elongation in a whole plant. Interactions of the auxin-overproducing transgenic plants with the phytochrome-deficient hy6-1 and auxin-resistant axrl-3 mutations were also studied. The effects of auxin overproduction on hypocotyl elongation were not additive to the effects of phytochrome deficiency in the hy6-1 mutant, indicating that excess auxin does not counteract factors that limit hypocotyl elongation in hy6-1 seedlings. Auxin-overproducing seedlings are also qualitatively indistinguishable from wild-type controls in their response to red, far-red, and blue light treatments, demonstrating that the effect of excess auxin on hypocotyl elongation is independent of red and blue light-mediated effects. All phenotypic effects of iaaM-mediated auxin overproduction (i.e. increased hypocotyl elongation in the light, severe rosette leaf epinasty, and increased apical dominance) are suppressed by the auxin-resistant axr1-3 mutation. The axr1-3 mutation apparently blocks auxin signal transduction since it does not reduce auxin levels when combined with the auxin-overproducing transgene.     

Effects of Foliar and Root Applications of Methanol on the Growth of Arabidopsis, Tobacco, and Tomato Plants

The effects of aqueous methanol solutions applied as a foliar spray or via irrigation were investigated in Arabidopsis, tobacco, and tomato plants. Methanol applied to roots leads to phytotoxic damage in all three species tested. Foliar application causes an increase of fresh and dry weight in Arabidopsis and tobacco plants, but not in tomato plants. The increase in fresh and dry weight of Arabidopsis plants does not correlate with increased levels of soluble sugars, suggesting that increased accumulation of other products is responsible for the differences in the methanol-treated leaves. Foliar application of methanol can induce pectin methylesterase (PME) gene expression in Arabidopsis and tomato plants, activating specific PME genes.     

Structure of the dehydrin tas 14 gene of tomato and its developmental and environmental regulation in transgenic tobacco

We have isolated a genomic clone encoding tomato TAS14, a dehydrin that accumulates in response to mannitol, NaCl or abscisic acid (ABA) treatment. A fragment of tas14 gene containing the region from –2591 to +162 fused to -glucuronidase gene drives ABA- and osmotic stress-induced GUS expression in transgenic tobacco. Histochemical analysis of salt-, mannitol-and ABA-treated plants showed GUS activity mainly localized to vascular tissues, outer cortex and adventitious root meristems, coinciding with the previously observed distribution of TAS14 protein in salt-stressed tomato plants. In addition, GUS activity was also observed in guard cells, trichomes and leaf axils. Developmentally regulated gus expression was studied in unstressed plants and found to occur not only in embryos, but also in flowers and pollen. Tas14 expression in floral organs was confirmed by northern blots of tomato flowers.     

Co-expression of the Suaeda salsa SsNHX1 and Arabidopsis AVP1 confer greater salt tolerance to transgenic rice than the single SsNHX1

Transgenic rice plants co-expressing the Suaeda salsa SsNHX1 (vacuolar membrane Na⁺/H⁺ antiporter) and Arabidopsis AVP1 (vacuolar H⁺-PPase) showed enhanced salt tolerance during 3 d of 300 mM NaCl treatment under outdoor growth conditions. These transgenic rice seedlings also grew better on MS medium containing 150 mM NaCl compared to SsNHX1-transformed lines and non-transformed controls. Measurements on isolated vacuolar membrane vesicles derived from the salt stressed SsNHX1+AVP1-transgenic plants demonstrated that the vesicles had increased V-PPase hydrolytic activity in comparison with the Ss-transgenics and non-transgenics. Moreover the V-PPase activity was closely related to the development period of the SA-transgenic seedlings and markedly higher in 3-week-old seedlings than in 5-week-old seedlings. Statistic analysis indicated that the SA-transgenic rice plants contained relatively more ions with higher K⁺/Na⁺ ratio in their shoots compared to the SsNHX1-transformed lines upon salt treatment. Furthermore, these SA-transformants also exhibited relatively higher level of photosynthesis and root proton exportation capacity whereas reduced H₂O₂ generation in the same plants. In general, these results supported the hypothesis that simultaneous expression of the SsNHX1 and AVP1 conferred greater performance to the transgenic plants than that of the single SsNHX1.Feng-Yun Zhao and Xue-Jie Zhang contributed equally to this work     

Expression of a tomato sugar transporter is increased in leaves of mycorrhizal or Phytophthora parasitica-infected plants

A full-length cDNA clone (LeST3), encoding a putative tomato sugar transporter, was isolated from mycorrhizal roots by using a PCR-based approach. Based on sequence similarity, conserved motifs and predicted membrane topology, LeST3 was classified as a putative monosaccharide transporter of the sugar transporter subgroup of the major facilitator superfamily. Southern blot analysis showed that LeST3 represents a single-copy gene in tomato. To investigate its function, LeST3 was expressed in a hexose transport-deficient mutant of Saccharomyces cerevisiae. Although LeST3 was correctly transcribed in yeast, it did not restore growth on hexoses of the S. cerevisiae mutant. LeST3 gene expression was increased in the leaves of plants colonised by the arbuscular mycorrhizal (AM) fungi Glomus mosseae or Glomus intraradices and in those of plants infected with the root pathogen Phytophthora parasitica. These data suggest that LeST3 plays a role in the transport of sugars into the sink tissues and responds to the increased demand for carbohydrates exerted by two AM fungi and by a root pathogen to cope with the increased metabolic activity of the colonised/infected tissues or to supply carbohydrates to the AM fungus.     

Expression of a humanS-adenosylmethionine decarboxylase cDNA in transgenic tobacco and its effects on polyamine biosynthesis

S-adenosylmethionine decarboxylase (SAMDC; EC 4.1.1.50) is a key regulatory enzyme in the polyamine biosynthetic pathway. Numerous studies have shown that the enzyme activity and polyamine levels are generally correlated with cellular growth in plants, animals and bacteria. In order to gain more insight into the role of polyamines in plants, human SAMDC cDNA under control of the 35S promoter of cauliflower mosaic virus, along with a neomycin phosphotransferase gene, was transferred to tobacco (Nicotiana tabacum cv. Xanthi) viaAgrobacterium tumefaciens. Transgenic plants showed the presence of human SAMDC mRNA and a 2-4-fold increase in SAMDC activity. In the transformed tissues, putrescine levels were significantly reduced, while spermidine content was 2–3 times higher than the control tissues. Cellular spermine content was either increased or remained unchanged. Excised leaf segments from transformed plants frequently produced shoots even on callus inducing medium.     

Sequence divergence at the putative flowering time locus COL1 in Brassicaceae

An insertion/deletion polymorphism (Ind2) in the Brassica nigra CONSTANS LIKE 1 (Bni COL1) gene was previously found to be associated with variation in flowering time. In the present study we examine the inter-specific divergence of COL1 in the family Brassicaceae. Analysis of codon substitution models did not reveal evidence of positive Darwinian selection, but comparisons of the COL1 gene in different species revealed a surprising number of indels. A total of 24 indels were found in the 650 bp of the middle variable region of the gene. This high number of indels could reflect a lack of constraint on length of this region of the protein, or the effect of positive selection. The number of indels was close to that expected in non-coding DNA, but the indels were longer in COL1 than those observed in non-coding regions. Reconstruction of indel evolution indicated that most indels resulted from deletions rather than insertions. The Ind2 indel that has shown association with flowering time in Brassica nigra exhibited a remarkable distribution in the Brassicaceae family, indicating that the polymorphism may have persisted more than ten million years. Considering presumed historic populations sizes of Brassicaceae species, such a long persistence time seems unlikely for a neutral polymorphism.     

Characterisation of the ACC oxidase activity in transgenic auxin overproducing tomato during ripening

As part of our studies on the role of auxin in regulating the ethylenebiosynthesis during fruit ripening, in this paper we describe the functionalproperties of the ACC oxidase activity extracted from transgenic tomato(Lycopersicum esculentum Mill. cv. Ailsa craig)overexpressing the tryptophan monooxygenase or iaaM protein fromAgrobacterium tumefaciens that increases the auxin levels.Maximal activity was recovered by extracting the enzyme at pH 8.0 from fruitspicked three days after the onset of the colour change. The enzyme exhibits ahalf-life of 85 min, two relative maxima at 30 and 38°C, an optimum pH of 7.9 and an apparent Km forACC of 118 M. Our results also show the first evidence of anallosteric type kinetic of the ACC oxidase activity with respect to itscosubstrate ascorbate, with an apparent Km of 12.5mM,estimated as the concentration which gave 50% Vmax.