Differences in in vitro plant regeneration ability among four Arabidopsis thaliana ecotypes

Summary The Arabidopsis ecotypes Columbia (Col), Landsberg erecta (Ler), Cape Verde Island (Cvi) and Wassilewskija (WS) have been tested for their regeneration response in vitro. A characteristic morphology of leaf-derived calluses has been found for each ecotype. Differences in regeneration ability have been detected depending on the plant strain. the explant source and on the culture medium composition. In CIR/SIR media, which contain 0.5 mg l⁻¹ (2.26 μM) of 2,4-dichlorophenoxyacetic acid (2,4-D) and glucose, root explants from the four ecotypes are able to reach a considerable regeneration level, while leaf explants do not regenerate beyond a basal level (5% approximately). In CIH/SIH media, which contain 2.2 mg l⁻¹ (9.95 μM) of 2,4-D and suerose, leaf explants from all the ecotypes, with the exception of Col, are able to regenerate, but they do it at variable levels (Ler 5.75%, WS 75.09%, and Cvi 27.53% as regeneration rates). With these media all root explants are able to regenerate, but again the four ecotypes show different rates (Col 27.7%, Ler 57.25%, WS 98.54%, and Cvi 42.25%). The variation of the different medium components affects differentially the regeneration ability of the four ecotypes depending also on the kind of explant. Thus, when the 2,4-D concentration is raised WS duplicates its regeneration rate in both leaf and root explants. Changing glucose for sucrose in CIR/SIR media diminishes to the basal level the regeneration of Cvi root explants, while the CIH/SIH salts and vitamin concentration permit the regeneration of leaf explants from all the ecotypes except Col. The genes responsible for those observed differences in regeneration ability could be identified and mapped by analyzing the in vitro regeneration behavior of the recombinant inbred lines (RILs) obtained by crossing these ecotypes.     

Gene targeting in Arabidopsis thaliana.

Summary Gene targeting of a chromosomally integrated transgene in Arabidopsis thaliana is reported. A chimeric gene consisting of the promoter of the 35S RNA of CaMV, the polyadenylation signal of the octopine synthase gene and the coding region of the bacterial hygromycin phosphotransferase gene (hpt), which was rendered non-functional by deletion of 19 bp, was introduced into the genome of A. thaliana using Agrobacterium-mediated gene transfer. A total of 3.46 x 10⁸ protoplasts isolated from 17 independent transgenic Arabidopsis lines harbouring the defective chimeric hpt gene were transformed via direct gene transfer using various DNA forms containing only the intact coding region of the hpt gene. Out of 150 hygromycin-resistant colonies appearing in the course of these experiments, four were the result of targeted recombination of the incoming DNA with the defective chromosomal locus as revealed by PCR and Southern blot analysis. Comparison with the number of transformants obtained when an hpt gene controlled by a promoter and terminator from the nopaline synthase gene was employed results in a maximal ratio of homologous to non-homologous transformation in A. thaliana of 1 x 10^–4.     

Ecotypic differentiation of response to enhanced CO2 and temperature levels in Arabidopsis thaliana

Five ecotypes of Arabidopsis thaliana, from widely dispersed origins, were grown under combinations of ambient and elevated atmospheric CO₂ concentrations and ambient and elevated temperatures within solardomes. Total above-ground plant biomass was measured when the majority of plants across all ecotypes and treatments had formed seed pods. There were substantial differences in biomass between the ecotypes across all treatments. Temperature had no effect on biomass whilst CO₂ had a significant effect both alone and in interaction with ecotype. The CO₂ x ecotype interaction was mostly due to the enhancement of a single ecotype from the Cape Verde Islands.     

Identification of Arabidopsis thaliana variants with differential glyphosate responses

To facilitate future investigations of glyphosate-resistance mechanisms, three approaches were taken to obtain Arabidopsis thaliana variants that differed in glyphosate response. Recurrent selection by spraying with sub-lethal glyphosate concentrations was performed with Columbia-0 seedlings. After seven cycles of treatment, no resistance was found. A population of 800,000 ethylmethanesulfonate-mutagenized M(2) seedlings was screened on agar containing 0.2mM glyphosate, a lower concentration than that previously used in other studies, and no resistant mutants were recovered. Seventy-two Arabidopsis ecotypes were screened with glyphosate and a range of responses was observed. In a follow-up experiment on a subset of these ecotypes, reduction of seed yield by 11.5 g/ha glyphosate (about 1% the typical field use rate) ranged among ecotypes from 0% to >90%, relative to untreated controls. However, even the least sensitive ecotypes were severely injured by relatively low glyphosate rates. Overall, attempts to select Arabidopsis seedlings that were significantly glyphosate-resistant were unsuccessful and consistent with previous reports. Arabidopsis ecotypes identified with differential glyphosate responses could be used for further studies though the inherently high sensitivity of Arabidopsis to glyphosate could limit their utility in studying glyphosate-resistance mechanisms.     

Differential Morphogenetic Responses of Cotyledonary Explants of Vigna mungo

The morphogenetic responses of cotyledonary nodal explants of Vigna mungo (L.) Hepper cv. VBN1 cultured on the same Murashige and Skoog's medium, B5 vitamins, and 13.31 µM N⁶-benzylaminopurine showed variations in the pattern of multiple shooting and morphology of leaves in dependence on initial explants (presence/absence of cotyledons). The regenerated shoots elongated in the initial medium and most of them rooted in the presence of 2.41 µM indole-3-butyric acid, and flowered in vitro. Rooted plants could be transferred to the field after hardening.     

The isolation and characterisation of the tapetum-specific Arabidopsis thaliana A9 gene

The Brassica napus cDNA clone A9 and the corresponding Arabidopsis thaliana gene have been sequenced. The B. napus cDNA and the A. thaliana gene encode proteins that are 73% identical and are predicted to be 10.3 kDa and 11.6 kDa in size respectively. Fusions of an RNase gene and the reporter gene -glucuronidase to the A. thaliana A9 promoter demonstrated that in tobacco the A9 promoter is active solely in tapetal cells. Promoter activity is first detectable in anthers prior to sporogenous cell meiosis and ceases during microspore premitotic interphase.The deduced A9 protein sequence has a pattern of cysteine residues that is present in a superfamily of seed plant proteins which contains seed storage proteins and several protease and -amylase inhibitors.     

Characterization of two Arabidopsis thaliana glutathione S-transferases

Glutathione S-transferases (GST) are multifunctional proteins encoded by a large gene family, divided on the basis of sequence identity into phi, tau, theta, zeta and lambda classes. The phi and tau classes are present only in plants. GSTs appear to be ubiquitous in plants and are involved in herbicide detoxification and stress response, but little is known about the precise role of GSTs in normal plant physiology and during biotic and abiotic stress response. Two cDNAs representing the two plant classes tau and phi, AtGSTF9 and AtGSTU26, were expressed in vitro and the corresponding proteins were analysed. Both GSTs were able to catalyse a glutathione conjugation to 1-chloro-2,4-dinitrobenzene (CDNB), but they were inactive as transferases towards p-nitrobenzylchloride (pNBC). AtGSTF9 showed activity towards benzyl isothiocyanate (BITC) and an activity as glutathione peroxidase with cumene hydroperoxide (CumHPO). AtGSTU26 was not active as glutathione peroxidase and towards BITC. RT-PCR analysis was used to evaluate the expression of the two genes in response to treatment with herbicides and safeners, chemicals, low and high temperature. Our results reveal that AtGSTU26 is induced by the chloroacetanilide herbicides alachlor and metolachlor and the safener benoxacor, and after exposure to low temperatures. In contrast, AtGSTF9 seems not to be influenced by the treatments employed.     

Flavonols are not essential for fertilization in Arabidopsis thaliana

Flavonols are plant metabolites suggested to serve a vital role in fertilization of higher plants. Petunia and maize plants mutated in their flavonol biosynthesis are not able to set seed after self-pollination. We have investigated the role of these compounds in Arabidopsis thaliana. Like in all other plant species, high levels of flavonols could be detected in pollen of wild-type A. thaliana. No flavonols were detected in reproductive organs of the A. thaliana tt4 mutant in which the chs gene is mutated. Surprisingly, this mutant did set seed after self-fertilization and no pollen tube growth aberrations were observed in vivo. The role of flavonols during fertilization of Arabidopsis is discussed.Abbreviations CHS chalcone synthase - TLC thin-layer chromatography     

Embryo sac development in Arabidopsis thaliana II. The cytoskeleton during megagametogenesis

The microtubular and actin cytoskeletons have been investigated during megagametogenesis in Arabidopsis thaliana using immunofluorescence labelling of isolated coenocytic and mature embryo sacs. We found both actin and microtubules (MTs) to occur in abundance throughout megagametogenesis and in all constituent cells of the mature embryo sac. During many stages, the patterns of distribution of these cytoskeletal elements are congruent and may prove to be co-aligned. Many changes in the arrays of MTs and microfilaments take place and indicate varying roles of the cytoskeleton in the different stages and cell types of megagametogenesis. Two major populations of MTs recur throughout embryo sac formation: (1) Elaborate nuclear-based networks are found during the two-nucleate and four-nucleate developmental stages as well as in the egg cell. These arrays may function in positioning the nuclei. (2) Cytoplasmic MTs in longitudinal orientation in the two-nucleate embryo sac, synergids and part of the egg cell, or in a reticulate pattern in the four-nucleate embryo sac, egg and central cell probably participate in organization of the cytoplasm. Synergid MTs converge at the filiform apparatus. Preprophase bands of MTs are absent throughout megagametogenesis but phragmoplast arrays occur during cellularization of the embryo sac. Well developed arrays of cortical MTs are restricted to the antipodal cells. A large concentration of MTs in the part of the egg cell adjacent to the synergids is well placed for being involved with sperm cell movement within the degenerative synergid. On the basis of the morphology of the cytoskeleton, we concur with views that the shape of megagametophyte is largely determined by the surrounding tissues, including the integumentary tapetum.     

Developmental anatomy of cotyledons and leaves in has mutant of Arabidopsis thaliana

Summary. In this work, we analyzed the developmental anatomy of cotyledons and leaves in the has mutant of Arabidopsis thaliana. It is a recessive T-DNA insertion mutation that causes changes in the size, shape, and tissue organization of the cotyledons and leaves of has plants. Analysis of has cotyledons revealed a prominent decrease in the cell number and an increase in the area of cotyledon cells and intercellular spaces of has plants. At early stages of development, has leaves are fingerlike structures, but later they develop small, lobed blades with rare trichomes. An important characteristic of the mutant leaf anatomy is the absence of mesophyll tissue differentiation. In addition, both cotyledons and leaves display a disrupted pattern of vascular bundles. Furthermore, mutant plants are defective in root and shoot morphology, indicating that the has mutation affects a number of aspects in plant development. Correspondence and reprints: Institute of Botany and “Jevremovac” Botanical Garden, Faculty of Biology, Belgrade University, Takovska 43, 11 000 Belgrade, Serbia.     

Transient expression in leaf mesophyll protoplasts of Arabidopsis thaliana

Conditions for maximising transient expression of GUS in leaf mesophyll protoplasts of Arabidopsis thaliana ecotype C24 were investigated. It was found that the factors most influencing expression levels, with optimum levels in parenthesis, were plasmid DNA quantity (100 g per 5 × 10⁵ protoplasts), inclusion of carrier DNA (50 g), PEG pH and amount (pH above 6, and total PEG concentration at least 9% w/w) and the topological form of the DNA. Linearised plasmid DNA with long flanking sequences 3 and 5 to the marker gene yielded the highest levels of GUS expression.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - GUS -glucuronidase - MU methylumbelliferone - PEG polyethylene glycol - X-gluc 5-bromo-4-chloro-3-indolyl--glucuronic acid     

Expression and one-step purification of recombinant Arabidopsis thaliana frataxin homolog (AtFH)

Frataxin, a nuclear-encoded mitochondrial protein, has been proposed to participate in Fe-S cluster assembly, mitochondrial energy metabolism, respiration, and iron homeostasis. However, its precise function remains elusive. Frataxin is highly conserved in living organisms with no major structural changes, in particular at the C-terminal protein domain, suggesting that it plays a key function in all organisms. Recently, a plant gene, AtFH, with significant homology to other members of the frataxin family has been described. To gain insight on the frataxin role in plants, the frataxin domain was expressed in Escherichia coli BL21-codonPlus (DE3)-RIL cells and purified using a Ni-chelating column. The purified protein, added to a mixture containing Fe(II) and H2O2, attenuates the Fenton reaction indicating that the recombinant plant frataxin is functional. The procedure described here produced high yield of 99% pure protein through only one chromatographic step, suitable for further structure-function studies.     

Identification of the most represented repeated motifs in Arabidopsis thaliana microsatellite loci

The major simple sequence repeats present in the Arabidopsis genome were identified by Southern hybridizations with 49 oligonucleotide probes matching all the possible combinations of motifs up to 4 nucleotides long. The method used allowed us to perform all the hybridizations under the same temperature conditions. A good correlation was observed with the data obtained from database analysis, indicating that the method can be useful for identifying the major classes of microsatellite loci in species for which few or no sequence data are available. AG/CT, AAG/CTT, ATG/CAT and GTG/CAC are the major motifs present in the Arabidopsis genome that can be used as convenient probes to isolate microsatellite loci by screening libraries. AAG/CTT is the more frequent of these motifs, and its relative frequency in Arabidopsis is much higher than averagely found in the plant kingdom. About 8% of the cDNA clones from an immature silique library contains AG/CT, AAG/CTT or ATG/CAT microsatellite loci. Several microsatellite loci were isolated by screening genomic and cDNA libraries. Twenty-six tri-nucleotide loci were PCR amplified from four different ecotypes, and polymorphism was observed for 12 of them; 10 loci showing two alleles and 2 loci showing three alleles.     

The Endosperm and the Embryo of Arabidopsis thaliana are Independently Transformed through Infiltration by Agrobacterium tumefaciens

Several experiments had indicated that in planta transformation of Arabidopsis thaliana by Agrobacterium involves the female germ line. In order to identify the precise stage at which transformation occurs we have monitored expression of a gusA reporter gene in the two products of the double fertilization of infiltrated plants. The plantlets and the remaining endosperm of seeds were separately tested after germination. It appeared that in the majority of cases only the plantlet or the endosperm were transformed. Based on transformation with two vectors borne by two different Agrobacterium strains, the minority of co-transformed plantlets and endosperm can be explained by simultaneous but independent transformation events. These results indicate that mature female gametes could be the targets of T-DNA.     

Expression Patterns of Duplicate Genes in the Developing Root in Arabidopsis thaliana

Data on gene expression in the development of the root in Arabidopsis thaliana were used to test for expression profile differences among multi-gene families and to examine the extent to which expression differences accompanied coding sequences divergence within families. Significant differences among families were observed on two principal axes, accounting for over 80% of the variance in the expression data. The number of synonymous nucleotide substitutions per synonymous site (d_S) and the number of nonsynonymous nucleotide substitutions per nonsynonymous site (d_N) were estimated between the members of two-member families (N=428) and between phylogenetically independent sister pairs (N=190) of sequences within larger families. Ribosomal proteins and a few other proteins were exceptional in showing highly divergent expression patterns in spite of very low levels of amino acid sequence divergence, as indicated by the low d_N relative to d_S. However, the majority of gene duplicates showed relatively high levels of amino acid sequence divergence without appreciable change in expression pattern in the cell types analyzed. Reviewing Editor:Dr. Manyuan Long