The action of 1-alkyl-1-nitrosoureas and 1-alkyl-3-nitro-1-nitrosoguanidines on the M1 generation of barley andArabidopsis thaliana (L.) heynh.

The activity of 1-methyl-1-nitrosourea (MNH), 1-ethyl-1-nitrosourea (ENH), 1-methyl-3-nitro-1-nitrosoguanidine (MNG) and 1-ethyl-3-nitro-1-nitrosoguanidine (ENG) was tested on seeds of barley andArabidopsis. The activity of nitrosoamides tested was expressed by the germination and M₁ seedling height reduction of barley and M₁ root length reduction ofArabidopsis.

1. 1)
   After the action of both nitrosoureas (MNH and ENH) the germination of barley is at the same level as that of controls, even at concentrations, leading to a maximal reduction in the height of seedlings. After the action of both nitrosoguanidines (MNG and ENG) germination decreases in parallel with the decreasing seedling height. InArabidopsis no such differences in the relation germination to root length reduction were observed after nitrosoureas and nitrosoguanidines treatment. The differences in the M₁ generation of barley andArabidopsis after nitrosoguanidines treatment may be the reason for the non-mutagenic action of MNG and ENG in barley.     
   
   

Functional identification of ELO-like genes involved in very long chain fatty acid synthesis in Arabidopsis thaliana

Very long chain fatty acids (VLCFAs) are essential lipid components in many plants. 3-Ketoacyl-CoA synthase (KCS) catalyzes the condensation reaction to form 3-ketoacyl-CoA in VLCFA synthesis. AtELO4 has been reported to be involved in VLCFA synthesis, functioning as a KCS in Arabidopsis. However, no studies on other three AtELO members have been reported. Here, we initially found by real-time PCR in Arabidopsis thaliana (L.) Heynh. that AtELO1, AtELO3, and AtELO4 displayed characteristic expression patterns, but AtELO2 was nearly expressed in any organ. Then the transient expression of ELO-like-eGFP fusions in Arabidopsis green leaf protoplasts showed that AtELO1, AtELO3, and AtELO4 were localized in the endoplasmic reticulum (ER), where VLCFA synthesis took place. Finally, we found that the contents of all fatty acids were decreased by 10–20% in seeds of atelo1 T-DNA insertion mutants. In seeds of Pro35S:AtELO1 plants, the levels of all remaining components, except C20:0 and C20:3, were significantly increased. Taken together, our study revealed biological functions of AtELO members and might lay the foundation for further genetic manipulations to generate oil crops with the high oil content.     

The effect of N-nitroso-N-methylurea,buthylmethane sulphonate and X-rays on the germination and production of chlorophyll mutations in einkorn wheat

Grains ofTriticum monococcum L. var.sofianum Körn. were treated with 0·1mm, 0·2mm and 0·3mm solutions of N-nitroso-N-methylurea (MNH), with 0·03m solution of buthylmethane sulphonate (BMS) and with X-rays in doses of 5 000r and 10 000r. The germination and development of individual colors of chlorophyl mutants were observed by the system developed byLamprecht (1960). All the mutants induced were classified according to their color changes into three main categories-homogenous unicolor, homogenous multicolor and heterogenous multicolor. In the last type the colors of individual leaves of the same plant varied. Anthocyanin mutations “albina” and “albino-transvirgata” sometimes coincided with the chlorophyll mutations. Some chlorophyll mutations showing complicated groups of colors appeared which were beyond the scale of classification by ordinary systems. The largest proportion in the spectrum of chlorophyll mutations, induced by MNH and X-rays was occupied by mutations of thealbina type. The broadest mutation spectrum in our experiments was induced by the application of 0·3mm MNH. The doses of X-rays used induced relatively higher numbers ofalbina-type chlorophyll mutations than MNH and BMS. In our experiments we succeeded in inducing on medium size samples ofTriticum monococcum L. var.sofianum Körn not only almost all types of chlorophyll mutations, induced byFujii (1960, 1962) andMatsumura (1960), but in addition also a great number of other even more complicated chlorophyll mutations, which have never been previously described inTriticum monococcum. L.     

Functions of EDS1-like and PAD4 genes in grapevine defenses against powdery mildew

The molecular interactions between grapevine and the obligate biotrophic fungus Erysiphe necator are not understood in depth. One reason for this is the recalcitrance of grapevine to genetic modifications. Using defense-related Arabidopsis mutants that are susceptible to pathogens, we were able to analyze key components in grapevine defense responses. We have examined the functions of defense genes associated with the salicylic acid (SA) pathway, including ENHANCED DISEASE SUSCEPTIBILITY 1 (EDS1), EDS1-LIKE 2 (EDL2), EDL5 and PHYTOALEXIN DEFICIENT 4 (PAD4) of two grapevine species, Vitis vinifera cv. Cabernet Sauvignon, which is susceptible to E. necator, and V. aestivalis cv. Norton, which is resistant. Both VaEDS1 and VvEDS1 were previously found to functionally complement the Arabidopsis eds1-1 mutant. Here we show that the promoters of both VaEDS1 and VvEDS1 were induced by SA, indicating that the heightened defense of Norton is related to its high SA level. Other than Va/VvEDS1, only VaEDL2 complemented Arabidopsis eds1-1, whereas Va/VvPAD4 did not complement Arabidopsis pad4-1. Bimolecular fluorescence complementation results indicated that Vitis EDS1 and EDL2 proteins interact with Vitis PAD4 and AtPAD4, suggesting that Vitis EDS1/EDL2 forms a complex with PAD4 to confer resistance, as is known from Arabidopsis. However, Vitis EDL5 and PAD4 did not interact with Arabidopsis EDS1 or PAD4, correlating with their inability to function in Arabidopsis. Together, our study suggests a more complicated EDS1/PAD4 module in grapevine and provides insight into molecular mechanisms that determine disease resistance levels in Vitis species native to the North American continent.     

Isolation and characterization of LEAFY COTYLEDON 1-LIKE gene related to embryogenic competence in Citrus sinensis

A member of the LEAFY COTYLEDON gene family encoding a HAP3 (heme activated protein 3) subunit of the CCAAT box-binding factor was isolated and termed as Citrus sinensis LEAFY COTYLEDON 1-LIKE (CsL1L). The deduced amino acid sequence shared a high similarity with LEAFY COTYLEDON 1-LIKE (L1L) in Arabidopsis thaliana, Phaseolus coccineus, Theobroma cacao, and Helianthus annuus. Quantitative RT-PCR results indicated that CsLIL was highly expressed in embryogenic callus, somatic embryos and immature seeds, but was rarely detected in non-embryogenic callus, vegetative and floral tissues. Ectopic expression of CsL1L in vegetative tissues could induce embryo-like structures, suggesting that CsL1L has the capability to transit cells from vegetative to embryogenic phase. Comparison of CsL1L expression in the newly formed and long-term subcultured embryogenic calli of W. Murcott tangor (C. sinensis × C. reticulata) and Hongkong kumquat (Fortunella hindsii Swingle) revealed that the potency of embryogenesis was related to the level of CsL1L expression. Sub-cellular localization analysis indicated that CsL1L was a nuclear protein in plant. A microsatellite in CsL1L was verified with polymorphism among the citrus species.     

The effect of N-nitroso-N-methylurea,buthylmethane sulphonate and x-rays on the germination and production of chlorophyll mutations in einkorn wheat

Grains ofTriticum monococcum L. var.sofianum Körn. were treated with O.1 mM, 0·2 mM and 0·3 mM solutions of N-nitroso-N-methylurea (MNtt), with 0.03 M solution of buthylmethane sulphonate (BMS) and with X-rays in doses of 5 000r and 10 000r. The germination and development of individual colors of chlorophyl mutants were observed by the system developed byLamprecht (1960). All the mutants induced were classified according to their color changes into three main categories-homogenous unicolor, homogenous multieolor and heterogenous multieolor. In the last type the colors of individual leaves of the same plant varied. Anthocyanin mutations “albina” and “albino-transvirgata” sometimes coincided with the chlorophyll mutations. Some chlorophyll mutations showing complicated groups of colors appeared which were beyond the scale of classification by ordinary systems. The largest proportion in the spectrum of chlorophyll mutations, induced by MNH and X-rays was occupied by mutations of thealbina type. The broadest mutation spectrum in our experiments was induced by the application of 0.3 mM MNH. The doses of X-rays used induced relatively higher numbers of albina-type chlorophyll mutations than MNH and BMS. In our experiments we succeeded in inducing on medium size samples ofTriticum monococcum L. var.sofianum Körn not only almost all types of chlorophyll mutations, induced byFuji (1960, 1962) andMatsumura (1960), but in addition also a great number of other even more complicated chlorophyll mutations, which have never been previously described inTriticum monococcum. L.     

Spiral cores of synaptonemal complex lateral elements at the diplotene stage in rye include the ASY1 protein

After completing their functioning, synaptonemal complexes (SCs) degrade during the diplotene stage. In the pollen mother cells of rye Secale cereale L., this occurs through the formation of gaps in lateral elements of the SCs and the shortening of fragments of SCs until their complete disappearance. However, when contrasting SCs with silver nitrate solution at a pH 3.5–4.5, these gaps appear to be filled with threads associated with SC lateral elements. As the diplotene stage proceeds and gradual degradation of SC fragments continues, these threads turn into submicroscopic spirals. In this study, we found that the threads and spirals associated with degrading synaptonemal complexes are stained by antibodies to the ASY1 protein of Arabidopsis thaliana lateral elements and thus are degradation products of the lateral elements of SCs.     

Seed-Specific Expression of AINTEGUMENTA in Medicago truncatula Led to the Production of Larger Seeds and Improved Seed Germination

The increase of seed size is of great interest in Medicago spp., to improve germination, seedling vigour and, consequently, early forage yield as well as for optimizing seeding techniques and post-seeding management. This study evaluated the effects of the ectopic expression of the AINTEGUMENTA (ANT) cDNA from Arabidopsis thaliana, under the control of the seed-specific USP promoter from Vicia faba, on seed size, germination and seedling growth in barrel medic (Medicago truncatula Gaertn.). All the transgenic T₂ barrel medic lines expressing ANT produced seeds significantly larger than those of control plants. Microscopic analysis on transgenic T₃ mature seeds revealed that cotyledon storage parenchyma cells were significantly larger and contained larger storage vacuoles than those of the untransformed control. Moreover, the percentage of germination was significantly higher and germination was more rapid in transgenic than in control seeds. Our results indicate that the seed-specific expression of ANT in barrel medic led to larger seeds and improved seed germination, and revealed a regulatory role for ANT in controlling seed size development.     

Induction of dormancy during seed development by endogenous abscisic acid: studies on abscisic acid deficient genotypes of Arabidopsis thaliana (L.) Heynh.

Mutant lines of Arabidopsis thaliana (L.) Heynh., which are characterized by symptoms of withering and the absence of seed dormancy, showed much lower levels of endogenous abscisic acid (ABA) in developing seeds and fruits (siliquae) than the wild type. Reciprocal crosses of wild type and ABA-deficient mutants showed a dual origin of ABA in developing seeds. The genotype of the mother plant regulated a sharp rise in ABA content half-way seed development (maternal ABA). The genotype of the embryo and endosperm was responsible for a second ABA fraction (embryonic ABA), which reached much lower levels, but persisted for some time after the maximum in maternal ABA. The onset of dormancy correlated well with the presence of the embryonic ABA fraction and not with the maternal ABA. Dormancy developed in both the absence and presence of maternal ABA in the seeds. In this respect maternal ABA resembled exogenously applied ABA which did not induce dormancy in ABA-deficient seeds. However, both maternal and applied ABA stimulated the formation of a mucilage layer around the testa, which could be observed during imbibition of the mature seeds. In the mature state, ABA-deficient seeds germinated in the siliquae on the plant, but only when the atmosphere surrounding the plant was kept at high relative humidity. In younger stages germination in siliquae occurred after isolation from the plants and incubation on wet filter paper. Therefore, it seems that limited access to water is the primary trigger for the developmental arrest in these seeds.     

Cytophysiological characteristics of Arabidopsis thaliana cultivated cells with disable perception of ethylene signal by the ETR1 receptor

Contradictory data about ethylene influence on cell growth and division prompted us to investigate cytophysiological characteristics of suspension cultures of Arabidopsis thaliana of wild type Col-0 and ert1-1 mutant carrying a point mutation in the site of ethylene binding by the ETR1 receptor. Some cytophysiological characteristics of the etr1-1 cultivated cells differed from those of Col-0: the growth rate of mutant cells was less and cell sizes were smaller, the culture was committed to the formation of tracheary elements (TE), had a pronounced modal class of nuclei (54%) with the amount of DNA 8C and a tendency to expand the ploidy toward 32C. Despite the absence of ethylene perception by the ETR1 receptor, the cell culture of mutant responded to treatment with ethylene by growth acceleration, an increase in cell viability and in the number of cells in the S-phase of the cell cycle. The inhibitor of ethylene binding to receptors, 1-methylcyclopropene, suppressed growth and viability of the cells of both genotypes. In the etr1-1 cell culture, the inhibitor reduced the number of S-phase nuclei and activated TE formation. All data obtained indicate that ethylene perception and transduction of ethylene signal are required for the maintenance of cell viability and active in vitro growth. It is supposed that the functional activity of the ETR1 receptor is necessary for optimal cell expansion, whereas other receptors are responsible for cell proliferation.     

Comparison of the mutagenic activity of N-ethyl- N-nitrosourea and N-methyl- N’- nitro- N- nitrosoguanidine inLens esculenta

Mutagenic activity of N-ethyl-N-nitrosourea (ENU) and of N-methyl-N’-nitro-N--nitrosoguanidine (MNG) in lentil was studied. The highest proportion of segregating progenies with chlorophyll mutants and chimeric plants was 34.8% from the total number of analysed offsprings, ENU being applied in this case in the concentration of 0.005% for 20 h at 18 to 19 °C. When MNG was applied in the concentration of 0.001 % for 10h at 22 to 23 °C the proportion was 5.1%. Progenies segregating two or more chlorophyll mutants originated with ENU only; their relative frequencies varied from 1.4% to 7.1%. The number of different types of mutants or of their combinations segregating at the same time in the same progeny was shown to be dependent with the two agent tested on the mutagenic activity of the concentration used. The most efficient concentration of ENU induced the total of 8 different mutants at the same time, together with a combination of two or three mutant types in the same progeny. With MNG no combination of chlorophyll mutants in the same progeny was ever found simultaneously. The greatest number of mutants corresponding to 1 progeny M₁ was 0.53 when ENU was applied; with MNG the maximum values were approximately ten times lower. The maximum number M₂ of chlorophyll mutants and chimeric plants was 3.58% with ENU and 0.23 with MNG.     

Changes in heat-shock protein synthesis and thermotolerance of Arabodopsis thaliana seedlings resulting from Hsp90 inhibition by geldanamycin

The influence of geldanamycin (GA), a specific inhibitor of heat-shock protein Hsp90, on the synthesis of Hsp70 and Hsp90 and thermotolerance of Arabidopsis thaliana seedlings has been studied. Incubation of seedlings with GA under normal conditions induced synthesis of these stress proteins. Treatment of seeds with the Hsp90 inhibitor resulted in elevated constitutive levels of Hsp70 and Hsp90 in seedlings, as well as increased induction of their synthesis under heat shock. The GA effect increased with its concentration. Hsp up-regulation promoted thermotolerance of seedlings. The findings suggest autoregulation of heatshock protein synthesis and regulation of plant tolerance by Hsp90.     

Relation of some M1 characters to the frequency of M2 mutants inArabidopsis thaliana

The relation of the M₁ root length and the frequency of M₁ chlorophyll chimeras to the sterility grade and to the frequency of M₂ mutants ofArabidopsis thaliana is demonstrated.     

Structural-functional organization of the cells of Brc-1 mutant of Chlamydomonas reinhardtii accumulating protoporphyrin IX in the dark

The structural-functional characteristics of the cells of wild type CC-124 and Brc-1 mutant of the unicellular green algae Chlamydomonas reinhardtii grown in the dark and in the light were studied. The cells of the wild type in heterotrophic and mixotrophic conditions had a well developed structure and high functional activity due to the ability of the cells to synthesize chlorophyll both in the light and in the dark. The cells of Brc-1 mutant lost their ability to synthesize chlorophyll in the dark and the cell color was orange due to brc-1 mutation in the nuclear gene LTS3 that regulated the activity of Mg-chelatase enzyme. In the dark the mutant cells accumulated protoporphyrin IX and had weakly developed structure with low functional activity. Because of the high content of protoporphyrin IX, even a short-term exposure of the Brc-1 mutant cells to the light was accompanied by very strong destructive changes in all the membranes in a cell: plasmalemma, chloroplast, mitochondrion, envelopes of the nucleus and vacuoles. The causes of significant impairment of the membrane components and O₂-gas exchange in the Brc-1 mutant cells are discussed.     

Membrane anchors effectively traffic recombinant human glucocerebrosidase to the protein storage vacuole of Arabidopsis seeds but do not adequately control N-glycan maturation

Key message

Human glucocerebrosidase with vacuolar anchoring domains was targeted to protein storage vacuoles (PSVs) of Arabidopsis seeds, but unexpectedly via the Golgi complex. PSV-targeting to effectively avoid problematic N-glycans is protein dependent.

Abstract

Plant-specific N-glycosylation patterns elaborated within the Golgi complex are a major limitation of using plants to produce biopharmaceuticals as the presence of β1,2 xylose and/or α1,3 fucose residues on the recombinant glycoprotein can render the product immunogenic if administrated parenterally. A reporter protein fused to a vacuolar membrane targeting motif comprised of the BP-80 transmembrane domain (TMD), and the cytoplasmic tail (CT) of α-tonoplast intrinsic protein (α-TIP) is delivered to protein storage vacuoles (PSVs) of tobacco seeds by ER-derived transport vesicles that bypass the Golgi complex. This prompted us to investigate whether a pharmaceutical glycoprotein is targeted to PSVs using the same targeting sequences, thus avoiding the unwanted plant-Golgi-specific complex N-glycan modifications. The human lysosomal acid β-glucosidase (glucocerebrosidase; GCase) (EC 3.2.1.45) fused to the BP-80 TMD and α-TIP CT was produced in Arabidopsis thaliana wild-type (Col-0) seeds. The chimeric GCase became localized in PSVs but transited through the Golgi complex, as indicated by biochemical analyses of the recombinant protein’s N-glycans. Our findings suggest that use of this PSV-targeting strategy to avoid problematic N-glycan maturation on recombinant therapeutic proteins is not consistently effective, as it is likely protein- and/or species-specific.