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221.
Expression of cucumber lipid-body lipoxygenase in transgenic tobacco: lipid-body lipoxygenase is correctly targeted to seed lipid bodies 总被引:2,自引:0,他引:2
A particular isoform of lipoxygenase (LOX, EC 1.13.11.12) localized on lipid bodies has been shown by earlier investigations
to play a role during seed germination in initiating the mobilization of triacylglycerols. On lipid bodies of germinating
cucumber (Cucumis sativus L.) seedlings, the modification of linoleoyl moieties by this LOX precedes the hydrolysis of the ester bonds. We analyzed
the expression and intracellular location of this particular LOX form in leaves and seeds of tobacco (Nicotiana tabacum L.) transformed with one construct coding for cucumber lipid-body LOX and one construct coding for cucumber LOX fused with
a hemagglutinin epitope. In both tissues, the amount of lipid-body LOX was clearly detectable. Biochemical analysis revealed
that in mature seeds the foreign LOX was targeted to lipid bodies, and the preferred location of the LOX on lipid bodies was
verified by immunofluorescence microscopy. Cells of the endosperm and of the embryo exhibited fluorescence based on the immunodecoration
of LOX protein whereas very weak fluorescent label was visible in seeds of untransformed control plants. Further cytochemical
analysis of transformed plants showed that the LOX protein accumulated in the cytoplasm when green leaves lacking lipid bodies
were analyzed. Increased LOX activity was shown in young leaves of transformed plants by an increase in the amounts of endogenous
(2E)-hexenal and jasmonic acid.
Received: 9 August 1999 / Accepted: 28 September 1999 相似文献
222.
Lorenz Adrian Werner Manz Ulrich Szewzyk Helmut G?risch 《Applied and environmental microbiology》1998,64(2):496-503
A bacterial mixed culture reductively dechlorinating trichlorobenzenes was established in a defined, synthetic mineral medium without any complex additions and with pyruvate as the carbon and energy source. The culture was maintained over 39 consecutive transfers of small inocula into fresh media, enriching the dechlorinating activity. In situ probing with fluorescence-labeled rRNA-targeted oligonucleotide probes revealed that two major subpopulations within the microbial consortium were phylogenetically affiliated with a sublineage within the Desulfovibrionaceae and the gamma subclass of Proteobacteria. The bacterial consortium grew by fermentation of pyruvate, forming acetate, propionate, CO2, formate, and hydrogen. Acetate and propionate supported neither the reduction of trichlorobenzenes nor the reduction of sulfate when sulfate was present. Hydrogen and formate were used for sulfate reduction to sulfide. Sulfate strongly inhibited the reductive dechlorination of trichlorobenzenes. However, when sulfate was depleted in the medium due to sulfate reduction, dechlorination of trichlorobenzenes started. Similar results were obtained when sulfite was present in the cultures. Molybdate at a concentration of 1 mM strongly inhibited the dechlorination of trichlorobenzenes. Cultures supplied with molybdate plus sulfate did not reduce sulfate, but dechlorination of trichlorobenzenes occurred. Supplementation of electron-depleted cultures with various electron sources demonstrated that formate was used as a direct electron donor for reductive dechlorination, whereas hydrogen was not.Chlorobenzenes are widespread pollutants and accumulate in the food chain due to their hydrophobicity and strong persistence against chemical and microbial degradation (34). Anaerobic reductive dechlorination of chlorinated benzenes was demonstrated for enrichment cultures from biofilm reactors, sewage sludge, river sediment, and soil (3, 4, 15, 16, 22, 31, 37). Dechlorination pathways for all multiply chlorinated benzenes were elucidated (4, 15). Some dechlorination patterns can be rationalized by thermodynamic considerations (3, 13), but little is known about the microorganisms participating in chlorobenzene dechlorination.Anaerobic bacteria transforming chlorobenzoates and/or chlorophenols have been isolated in pure cultures (5, 7, 18, 27, 39, 40, 45, 48). Desulfomonile tiedjei (12), strain 2CP-1 (7), Desulfitobacterium chlororespirans (39), and Desulfitobacterium sp. strain PCE1 (18) grow anaerobically by chlororespiration. So far, it has not been possible to evaluate whether the anaerobic dechlorination of chlorobenzenes proceeds via a similar mechanism, since pure cultures are not available.While the effect of oxygen and nitrate on the dechlorination of chloroaromatics is reported to be negative for most cultures (32), the effect of sulfur oxyanions is controversial. Some reports stated an inhibitory role of sulfate in the reductive dehalogenation of various chlorinated or fluorinated aromatics (17, 19, 25, 26); other studies found only slight inhibition (24), no inhibition (14), or even a stimulated rate of dechlorination (17, 23). For one mixed culture, the mineralization of chlorophenols was concomitantly coupled to the reduction of sulfur oxyanions (20, 21). With pure cultures of D. tiedjei, it could be shown that sulfite and thiosulfate inhibited the dechlorination of 3-chlorobenzoate in growing cells, nongrowing cells, and cell extracts, while sulfate inhibited dechlorination only in growing cells (46).The high toxicity (22) and the low solubility of chlorobenzenes in water prevented the successful isolation of bacteria with chlorobenzenes as electron acceptors. It is therefore essential to study alternative electron acceptors that could be used by chlorobenzene-dechlorinating bacteria and that could substitute for chlorobenzenes during enrichment and isolation. Information about reductive dechlorination of chlorobenzenes in the presence of other electron acceptors is also needed for the evaluation of dechlorination processes at natural sites and for in situ remediation projects. To our knowledge, detailed studies of the effects of alternative electron acceptors on the dechlorination of chlorobenzenes have not been reported so far.The aim of the present study was to describe the physiological properties of a mixed culture effectively dechlorinating trichlorobenzenes and to determine the effects of various specific inhibitors and alternative electron acceptors. For these experiments, we used a stable, sediment-free mixed consortium growing in a defined, synthetic mineral medium. This consortium has been established in our laboratory from a fluidized bed bioreactor (1, 33) and reductively dechlorinates 1,2,3-trichlorobenzene to 1,3-dichlorobenzene and 1,2,4-trichlorobenzene to 1,4- and 1,3-dichlorobenzene. By inhibiting the activity of methanogenic bacteria using the specific inhibitor bromoethanesulfonate (BES), we showed that dechlorination occurs independently from methanogenic bacteria (1), as has also been shown for other enrichment cultures dechlorinating chlorobenzenes (22, 31). 相似文献
223.
Erwinia herbicola 299R produces large quantities of indole-3-acetic acid (IAA) in culture media supplemented with l-tryptophan. To assess the contribution of IAA production to epiphytic fitness, the population dynamics of the wild-type strain and an IAA-deficient mutant of this strain on leaves were studied. Strain 299XYLE, an isogenic IAA-deficient mutant of strain 299R, was constructed by insertional interruption of the indolepyruvate decarboxylase gene of strain 299R with the xylE gene, which encodes a 2,3-catechol dioxygenase from Pseudomonas putida mt-2. The xylE gene provided a useful marker for monitoring populations of the IAA-deficient mutant strain in mixed populations with the parental strain in ecological studies. A root bioassay for IAA, in which strain 299XYLE inhibited significantly less root elongation than strain 299R, provided evidence that E. herbicola produces IAA on plant surfaces in amounts sufficient to affect the physiology of its host and that IAA production in strain 299R is not solely an in vitro phenomenon. The epiphytic fitness of strains 299R and 299XYLE was evaluated in greenhouse and field studies by analysis of changes in the ratio of the population sizes of these two strains after inoculation as mixtures onto plants. Populations of the parental strain increased to approximately twice those of the IAA-deficient mutant strain after coinoculation in a proportion of 1:1 onto bean plants in the greenhouse and onto pear flowers in field studies. In all experiments, the ratio of the population sizes of strain 299R and 299XYLE increased during periods of active growth on plant tissue but not when population sizes were not increasing with time.Many plant-associated bacteria have the ability to produce the plant growth regulator indole-3-acetic acid (IAA) (5, 9, 25, 33). IAA is involved in diseases caused by gall- and knot-forming bacterial species (33); however, its role in other bacteria remains undefined. It is unclear whether these bacteria produce IAA during colonization of plant surfaces and whether this metabolite is beneficial to the bacteria during their growth and survival in the phyllosphere. The production of IAA may enable bacteria to detoxify tryptophan analogues present on plant surfaces (15), to downregulate genes involved in plant defense responses (33), or to inhibit the development of the hypersensitive response by plants (26). We recently demonstrated that the ipdC gene, which encodes the indolepyruvate decarboxylase of Erwinia herbicola (Pantoea agglomerans) 299R and which is involved in the indolepyruvate pathway for IAA synthesis in this epiphytic strain (2), is osmoresponsive and plant inducible (3). We hypothesized that the secretion of IAA may modify the microhabitat of epiphytic bacteria by increasing nutrient leakage from plant cells; enhanced nutrient availability may better enable IAA-producing bacteria to colonize the phyllosphere and may contribute to their epiphytic fitness (1).Few studies have attempted to determine the ecological significance of IAA production in pathogenic bacteria. Varvaro and Martella (31) showed that IAA-deficient mutants of Pseudomonas syringae pv. savastanoi, obtained by selection for resistance to α-methyltryptophan, were reduced in their ability to colonize and survive on olive leaf surfaces. The survival of an α-methyltryptophan-resistant IAA-deficient mutant of P. syringae pv. savastanoi in knots also was affected, its population declining more rapidly than that of the parental strain when inoculated alone into oleander leaf tissue (28). The importance of IAA production in bacterial colonization of bean leaves was also tested with the brown spot pathogen P. syringae pv. syringae and an IAA-deficient mutant derived by insertional mutagenesis (21). Although no difference in the survival of the parental and mutant strains on bean leaves was observed in the greenhouse, a small difference in their behavior was apparent in experiments conducted in a mist chamber (21). There have been no studies of the role of IAA production in plant-associated bacteria that do not cause disease.IAA biosynthesis is not essential for bacterial growth and survival, since IAA-deficient mutants grow as well as their IAA-producing parental strain in vitro (2, 29). Large differences in the epiphytic behaviors of IAA-producing bacteria and isogenic IAA-deficient mutants consequently would not be expected. Even small contributions of IAA production to epiphytic fitness could account for the common presence of this phenotype in epiphytic bacteria (19). Measurements of changes in the ratio of two strains following coinoculation, a common approach in ecological studies, can allow the detection of even small differences in the competitive behaviors of two organisms. This approach can detect much smaller differences in behavior between closely related species than comparison of populations of these species when present singly in separate habitats (16). In this study, we tested the role of IAA in the epiphytic fitness of E. herbicola by comparing the relative changes in the population sizes of the parental and IAA-deficient mutant strains with time after their inoculation onto plants in both controlled and field environments. 相似文献
224.
Andrea Knappe Christian Hiller Henk Niphuis Franois Fossiez Mathias Thurau Sabine Wittmann Eva-Maria Kuhn Serge Lebecque Jacques Banchereau Brigitte Rosenwirth Bernhard Fleckenstein Jonathan Heeney Helmut Fickenscher 《Journal of virology》1998,72(7):5797-5801
In comparison to wild-type herpesvirus saimiri, viral interleukin-17 gene knockout mutants have unaltered behavior regarding viral replication, T-cell transformation in vitro, and pathogenicity in cottontop tamarins. Thus, this gene is not required for T-cell lymphoma induction but may contribute to apathogenic viral persistence in the natural host, the squirrel monkey. 相似文献
225.
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227.
Johann Ressler Andreas Dirscherl Helmut Grothe Bernhard Wolf 《Biomedizinische Technik》2007,52(1):143-148
In many cases of bioanalytical measurement, calculation of large amounts of data, analysis of complex signal waveforms or signal speed can overwhelm the performance of microcontrollers, analog electronic circuits or even PCs. One method to obtain results in real time is to apply a digital signal processor (DSP) for the analysis or processing of measurement data. In this paper we show how DSP-supported multiplying and accumulating (MAC) operations, such as time/frequency transformation, pattern recognition by correlation, convolution or filter algorithms, can optimize the processing of bioanalytical data. Discrete integral calculations are applied to the acquisition of impedance values as part of multi-parametric sensor chips, to pH monitoring using light-addressable potentiometric sensors (LAPS) and to the analysis of rapidly changing signal shapes, such as action potentials of cultured neuronal networks, as examples of DSP capability. 相似文献
228.
229.
230.
Bernd Haditsch Andreas Roessler Peter Krisper Herwig Frisch Helmut G. Hinghofer-Szalkay Nandu Goswami 《PloS one》2015,10(3)