Enhancement of Festuca rubra L. germination and seedling growth by seed treatment with pathogenic Agrobacterium rhizogenes

The study concerned effects of two methods of red fescue seeds treating with wild type Agrobacterium rhizogenes strains (15834 and LBA 1334): soaking and matriconditioning with Micro-Cel E solid carrier. The effects were assessed from germination and seedlings growth rates. The bacterial indole-3-acetic acid (IAA) production and ACC deaminase activity were also determined. Both strains are able to produce the IAA and showed ACC deaminase activity in various amounts. The strains accelerated seeds germination, seedling emergence and development. The beneficial effect on those processes was visible when seeds were soaked for 1 h in bacterial suspension and, especially, when the bacteria were present during Micro-Cel E conditioning. The main effect observed upon inoculation of seeds during priming was increased growth of lateral roots and more complex architecture of the branching root system. Treating seeds with A. rhizogenes simultaneously with Micro-Cel E priming as a carrier is a promising method of enhancing grass germination and seedlings growth, particularly by improving the root system development.     

The action of exogenous gibberellic acid on polysome formation and translation of mRNA in germinating castor-bean seeds

The amount of protein synthesis in germinating castor-bean seeds has been estimated by the quantitative and qualitative exmainatin of polysomes from the seeds in the presence and absence of gibberellic acid (GA₃). Careful optimisation of polysome extraction procedures was required to minimise the ribonuclease activity in the extracts. Ribonuclease activity in seed extracts increased fourfold over the first 5 d of germination. Gibberellic acid stimulated polysome formation about twofold during the first 4 d of germination. It also stimulated the amount of mRNA associated with polysomes by about twofold during the first 3 d of germination. Between days 1 and 5 of germination, polysome formation was primarily limited by mRNA availability. During the period 0–24 h, polysome formation was independent of mRNA levles. The increase in enzyme activities stimulated by GA₃ was probably the result of an increase in the amount of cellular mRNA. No evidence was obtained for an action of GA₃ on translation other than on the increased production of RNA. Examination of the recruitment of isocitrate-lyase mRNA into polysomes showed that GA₃ did not specifically stimulate production of this enzyme.     

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.     

High temperature — induced changes in germination,seedling vigour and the metabolic activities in rice seeds

The effects of temperature treatments on rice seeds in the early imbibitional phase were studied with respect to changes in germination percentage, seedling growth in terms of root and shoot lengths, water uptake, respiration and hydrolytic enzymes,viz. α-amylase, adenosine triphosphatase (ATPase) and phytase. As compared with the control, the treatment for 30 min at 50 °C caused a variable degree of increase in all these characters and a positive correlation existed between seedling vigour and hydrolase activities. The treatment for 30 min at 60 °C, on the other hand, elicited a retarding influence on these characters. As regards the enzyme activities, the damaging effect of 60 °C could, however, be visualized only after 72 h of germination which was preceded by an enhancement during the early hours.     

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.     

Plant growth regulation with triazoles of the dioxanyl type

The plant growth retarding activities of several dioxanylalkyl and dioxanylalkenyl triazoles were determined in seedlings of barley, rice, and oilseed rape. Out of these groups some substances proved to be among the most efficient growth retardants known. The compound 1-(4-trifluormethyl)-2-(1,2,4-triazolyl-(1))-3-(5-methyl-1,3-dioxan-5-yl)-propen-3-ol was investigated more closely. Shoot growth is reduced more intensively than root growth by this compound. At lower dosages root growth may even be stimulated. The action of this retardant can be antagonized by gibberellin A₃ and byent-kaurenoic acid. It is suggested that its main biochemical action is to block the reactions that lead froment-kaurene toent-kaurenoic acid in the course of gibberellin biosynthesis.     

Inhibitory effect of hena (Lawsonia inermis leaves) and carrot root on aflatoxin production byAspergillus parasiticus

Experiments were undertaken to evaluate the effect of some natural products (hena, and carrot root) on growth and aflatoxins production byAspergillus parasiticus FRR 2752. Powdered hena (0.5 and 5%) inhibited mycelial growth and delayed 1 sporulation ofA parasiticus during 7 days. The inhibition of growth was increased with increasing the added amount. Aflatoxins production byA parasiticus was reduced with 40–100% in the presence of hena (Lawsonia inermis leaves). Carrot root extract stimulated the fungal growth and aflatoxin production, whereas carrot root fibers slightly enriched fungal growth, inhibited aflatoxins production (B₁, G₁, and G₂), but there was no inhibition of aflatoxin B₂ production byA parasiticus.     

Hydraulic adjustments in aspen (Populus tremuloides) seedlings following defoliation involve root and leaf aquaporins

Main conclusion

Changes in root and leaf hydraulic properties and stimulation of transpiration rates that were initially triggered by defoliation were accompanied by corresponding changes in leaf and root aquaporin expression. Aspen (Populus tremuloides) seedlings were subjected to defoliation treatments by removing 50, 75 % or all of the leaves. Root hydraulic conductivity (L_pr) was sharply reduced in plants defoliated for 1 day and 1 week. The decrease in L _pr could not be prevented by stem girdling and it was accompanied in one-day-defoliated plants by a large decrease in the root expression of PIP1,2 aquaporin and an over twofold decrease in hydraulic conductivity of root cortical cells (L _pc). Contrary to L _pr and L _pc, 50 and 75 % defoliation treatments profoundly increased leaf lamina conductance (K _lam) after 1 day and this increase was similar in magnitude for both defoliation treatments. Transpiration rates (E) rapidly declined after the removal of 75 % of leaves. However, E increased by over twofold in defoliated plants after 1 day and the increases in E and K _lam were accompanied by five- and tenfold increases in the leaf expression of PIP2;4 in 50 and 75 % defoliation treatments, respectively. Defoliation treatments also stimulated net photosynthesis after 1 day and 3 weeks, although the increase was not as high as E. Leaf water potentials remained relatively stable following defoliation with the exception of a small decrease 1 day after defoliation which suggests that root water transport did not initially keep pace with the increased transpirational water loss. The results demonstrate the importance of root and leaf hydraulic properties in plant responses to defoliation and point to the involvement of PIP aquaporins in the early events following the loss of leaves.     

Polyamines and Nitric Oxide Link in Regulation of Dormancy Removal and Germination of Apple (Malus domestica Borkh.) Embryos

Polyamines (PAs) belong to plant growth regulators and in complex with classical phytohormones take part in regulation of seed dormancy and germination. Although the impact of reactive oxygen (ROS) and nitrogen (RNS) species on seed germination is well described, the cross talk of PAs with ROS/RNS has never been analyzed. Due to the close connection of PAs and ethylene biosynthetic pathways to arginine (Arg)-dependent NO biosynthesis we investigated production of nitric oxide (NO), peroxynitrite (ONOO^?) and the level of O ₂ ^?? or H₂O₂ in apple embryos, germination of which was PA regulated. PAs: putrescine (Put) and spermidine (Spd) in contrast to spermine (Spm) stimulated germination of apple embryos. Among amino acids, stimulation of germination was observed in Arg and ornithine (Orn) only. Dormancy removal of embryos by PAs was associated with increased accumulation of H₂O₂ and O ₂ ^?? in embryonic axes. At the same stage of completion of sensu stricto germination the stimulatory effect of PAs (Put and Spd) and amino acids, mainly Arg and Orn, was accompanied by enhanced NO and ONOO^? production in embryonic axis. The beneficial effect of PAs (Put and Spd) and their precursors on germination of apple embryos was removed by NO scavenging, suggesting a crucial role of NO in termination of embryo germination and radicle growth. Moreover, activity of polyamine oxidase in embryo axes was greatly enhanced by embryo fumigation with NO. Our data demonstrate the interplay of RNS/ROS with PAs and point to NO action as an integrator of endogenous signals activating germination.     

Notes on the ecology of germination ofAlliaria petiolata

Over a period of several years, the ecology of germination of the seeds ofAlliaria petiolata (M. Bieb.) Cavara etGrande has been studied, both in the laboratory and on an experimental plot at Průhonice. Using 11 seed samples collected in various regions of Czechoslovakia, experiments have shown that seeds of this species pass through a dormancy stage which is caused by physiological features of the embryo. Dormancy was interrupted in cold stratification at temperatures between +1 and +6°C. Germination started on between 60^th and 97^th day after the beginning of stratification, while, the majority of seeds germinated after 75 to 90 days.     

Phytochemical alteration and new occurring compounds in hairy root cultures of Mitracarpus hirtus L. induced by phenylurea cytokinin (CPPU)

Hairy root cultures of Mitracarpus hirtus L. were obtained after transforming leaf-disc explants with wild strain Agrobacterium rhizogenes A13. The root cultures of M. hirtus showed high efficiency of shoot formation in both transformed and non-transformed cultures when illuminated with light. However, transformed hairy root proliferation was approximately 3.8–5 times higher than the control in both solidified and liquid plant growth regulator free media. Putatively transformed roots were identified by the presence of the rol gene via PCR. Integration of the rol gene into the plant genome was confirmed via Southern blot analysis after 5 months with no detection in non-transformed roots. In addition, the effect of 2-chloro-4-pyridyl-N-phenylurea (CPPU), a synthetic cytokinin, when applied as an elicitor for hairy root cultures of M. hirtus was investigated. The 24-day-old hairy root cultures of high root proliferation line R107-3, were incubated for 48 h in media supplemented with 0 or 5 mg l^?1 CPPU. The methanolic extracts of root tissues were subsequently analyzed for biochemical constituents using Gas Chromatography Mass Spectrometry (GC-MS). The alteration of plant secondary metabolites produced after CPPU treatment was analyzed. Compared to the control (with quality higher than 80 %), six unique compounds were found, five original compounds absent, 11 with increased, and five with decreased contents. Increased contents of two metabolites, chrysophanol and 2-methoxy-4-vinylphenol, showed pharmaceutical potential. CPPU was also found to elicit the alkaloid compound, Eseroline, 7-bromo-, methylcarbamate (ester), which could not be detected in the non-treated sample. The findings of this study demonstrate the establishment of transgenic hairy root of M. hirtus and the application of CPPU as an elicitor to induce variations in plant secondary metabolite that shows its potential to apply for bio-reactor system.     

A fatty acid condensing enzyme from Physaria fendleri increases hydroxy fatty acid accumulation in transgenic oilseeds of Camelina sativa

Main conclusion

Co-expression of a lesquerella fatty acid elongase and the castor fatty acid hydroxylase in camelina results in higher hydroxy fatty acid containing seeds with normal oil content and viability. Producing hydroxy fatty acids (HFA) in oilseed crops has been a long-standing goal to replace castor oil as a renewable source for numerous industrial applications. A fatty acid hydroxylase, RcFAH, from Ricinus communis, was introduced into Camelina sativa, but yielded only 15 % of HFA in its seed oil, much lower than the 90 % found in castor bean. Furthermore, the transgenic seeds contained decreased oil content and the germination ability was severely affected. Interestingly, HFA accumulation was significantly increased in camelina seed when co-expressing RcFAH with a fatty acid condensing enzyme, LfKCS3, from Physaria fendleri, a native HFA accumulator relative to camelina. The oil content and seed germination of the transgenic seeds also appeared normal compared to non-transgenics. LfKCS3 has been previously characterized to specifically elongate the hydroxylated ricinoleic acid to lesquerolic acid, the 20-carbon HFA found in lesquerella oil. The elongation reaction may facilitate the HFA flux from phosphatidylcholine (PC), the site of HFA formation, into the acyl-CoA pool for more efficient utilization in triacylglycerol (TAG) biosynthesis. This was demonstrated by increased HFA accumulation in TAG concurrent with reduced HFA content in PC during camelina seed development, and increased C20-HFA in HFA-TAG molecules. These effects of LfKCS3 thus may effectively relieve the bottleneck for HFA utilization in TAG biosynthesis and the feedback inhibition to fatty acid synthesis, result in higher HFA accumulation and restore oil content and seed viability.     

Conditioning duration and agents involved in broomrape seeds responding to germination stimulants

Weedy broomrape species, such as sunflower broomrape (Orobanche cumana Wallr.) and Egyptian broomrape [Phelipanche aegyptiaca Pers. (syn. O. aegyptiaca)], require a period of pre-conditioning before they can respond to germination stimulants. Thus, the sensitivity of weedy broomrape seeds to germination stimulants could be an important factor for broomrape control. In this study, the influence of conditioning agents, conditioning period (0–21 days) and germination stimulants on the germination of sunflower broomrape and Egyptian broomrape seeds was analyzed. Without conditioning, the sunflower and Egyptian broomrape seeds exhibited negligible germination responses to the stimulants. The germination rate of the broomrape seeds increased rapidly with conditioning period and reached a maximum under a conditioning period of 4–10 days; further prolonged conditioning resulted in a decrease in the germination rate. Gibberellic acid (GA₃) could not only break the dormancy of the sunflower and Egyptian broomrape seeds but also maintained the high sensitivity of these seeds even after 21 days of conditioning. Furthermore, 100 µM of GA₃ induced the germination of the Egyptian broomrape seeds. The stimulants that induced Egyptian broomrape germination were ranked in decreasing order as GR24 (76.8?%), strigol (76.1?%), tobacco root exudates (49.5?%), dehydrocostus lactones (DCL, 39.2?%), and maize root exudates (18?%). In contrast, GA₃ did not directly induce sunflower broomrape seed germination, which responded to strigol (62.8?%)?>?maize root exudates (58.2?%)?>?GR24 (57.9?%)?>?tobacco root exudates (41.6?%)?>?DCL (41.3?%). These results indicate specialized recognition of germination stimulants by sunflower and Egyptian broomrape. This study may contribute to a better understanding of parasitic weed germination and may lead to improved control strategies.     

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.     
   
   

Impact of TiO2 nanoparticles on Vicia narbonensis L.: potential toxicity effects

This work was aimed to provide further information about toxicology of TiO₂ nanoparticles (NPs) on Vicia narbonensis L., considering different endpoints. After exposure to TiO₂ nanoparticle suspension (mixture of rutile and anatase, size <100 nm) at four different concentrations (0.2, 1.0, 2.0 and 4.0 ‰), the seeds of V. narbonensis were let to germinate in controlled environmental conditions. After 72 h, the extent of the success of the whole process (seed germination plus root elongation) was recorded as the vigour index, an indicator of possible phytotoxicity. After the characterisation of the hydric state of different materials, oxidative stress and enzymatic and nonenzymatic antioxidant responses were considered as indicators of possible cytotoxicity and to assess if damage induced by TiO₂ NPs was oxidative stress-dependent. Cytohistochemical detection of in situ DNA fragmentation as genotoxicity endpoint was monitored by TUNEL reaction. The treatments with TiO₂ NPs in our system induced phytotoxic effects, ROS production and DNA fragmentation. The nonenzymatic and enzymatic antioxidant responses were gradually and differentially activated and were able to maintain the oxidative damage to levels not significantly different from the control. On the other hand, the results of DNA fragmentation suggested that the mechanisms of DNA repair were not effective enough to eliminate early genotoxicity effects.